CN EN

WANG Zhi

Professional title:Professor

Office No.:+86-010-51688200

Email:zhiwang@bjtu.edu.cn

Education
1996 - 2000 Ph D in Telecommunication and Information Systems   Institute of Light-wave Technology, Northern Jiaotong University
1993 -1996 M. Sc. in Electromagnetic Field and Microwave Technology   Institute of Light-wave Technology, Northern Jiaotong University
1989 -1993 B.Sc. in Physics   Department of Physics, Beijing Normal University

Professional Experience

Zhi Wang was born in Hubei province, China, in 1971. He received the B.Sc. degree in physics from Beijing Normal University, Beijing, China, in 1993 and the Ms.Eng. and Ph.D. degrees from Beijing Jiaotong University in 1996, and 2000, respectively. From July 2004 to August 2005, he served as a Research Associate with the Department of Electronics, The Hong Kong Polytechnic University. From October 2009 to June 2011, he served as a visitor professor with the Department of Electronics and Computer Engineering, the University of California at Santa Barbara. From July to August 2018, he visited the Ghent University and established a better cooperation between the Prof. Peter Bienstman’s group and mine in the field of photonic integrations and neuromorphic photonics. He is currently with the Institute of Optical Information, School of Science, Beijing Jiaotong University, where he is engaging in the all-optical signal processing, and Silicon photonics, microstructured optical fibers, optical fiber sensing, all-optical networking. Dr. Wang is a member of OSA and SPIE.

Research Field

  1. Neuromorphic Photonics;
  2. SOI integrated photonics;
  3. Optical signal processing based on SOAs, Nonlinear fibers, and other devices;
  4. Theories, fabrications and applications of optical fibers;
  5. Other fields in optoelectronics and photonics.

Projects

sponsored by the National ‘863’High Technology Projects:

all optical buffering systems for size variable packets;

the novel special optical fibers (Class A);

rare earth doped optical fibers;

the Novel Laser Plasma Hybrid Vapor Deposition process to fabricate optical fibers.

sponsored by the National Natural Science Foundation of China:

‘Implementation of the Photonic Neural Network based on all optical digital signal processing and optical networking’

‘All Optical Multi-bit Comparator based on Semiconductor Optical Amplifier’

‘Investigation of the Bragg fiber and the light transmission in it’

sponsored by Beijing Natural Science Foundation:

‘Comprehensive analysis of train driver's behavior based on big data and audio video fusion perceptions’

‘ultra-speed ultra-long all-optical PRBS generator based on multi-channel parallel all-optical XOR logic gate’

All optical multi-bit comparator based on high birefringence and high nonlinearity photonic crystal fibers’

Teaching Courses
Postgraduate-- Nonlinear Fiber Optics ,Opto-Electronics, Optical Fiber Sensing Techniques, Optical Waveguide Theory
Undergraduate-- Electrodynamics, Fundamental of Lightwave Tech., Optical Fiber Communications, Electromagnetism
College Physics

Paper

  1. 王祝,王智*,张旭,崔粲,王健,基于二维激光雷达的自适应阈值聚类分割方法,中国激光,2021年48卷16期。
  2. Can Cui, Zhi Wang*, Xiangkong Zhan, Huiying Wang, Jian Wang, Lanlan Liu, Zhiyong Li, Chongqing Wu, Focusing characteristics of optical vortex passing through a Fresnel zone plate, Opt. Eng. 60(1), 016101 (2021), doi: 10.1117/1.OE.60.1.016101.
  3. Rui Jiang, Lifei Tian, Yang Liu, Yingxin Kuang, Huan Guan, Zhiyong Li, Zhi Wang*, Research on the properties of indium tin oxide films for compact optical modulators, SPIE/COS Photonics Asia (PA2020) Poster presentation on-line. Proceedings Volume 11547, Optoelectronic Devices and Integration IX; 115471V (2020), 11 - 13 October 2020.
  4. Zhenghao Hu, Jian Wang, Xiaoling Ma, Jinhua Gao, Chunyu Xu, Kaixuan Yang, Zhi Wang*, Jian Zhang, Fujun Zhang. A critical review on semitransparent organic solar cells. Nano Energy 2020, 78, 105376.
  5. Huiying Wang, Zhi Wang*, Hangtian Li, Xiangkong Zhan, Can Cui, Ziling Fu, Zhiyong Li, Lanlan Liu, Chongqing Wu, Signal evolution of an all-optical buffer based on the nonreciprocal silicon-on-insulator waveguide, Optics Communications, Volume 474, 1 November 2020, 126158. https://doi.org/10.1016/j.optcom.2020.126158.
  6. Can Cui, Zhi Wang*, Xiangkong Zhan, Jian Wang, Lanlan Liu, Zhiyong Li, and Chongqing Wu, Measurement of the adjustable slight roughness emulated by spatial light modulator employing the vortex beam speckle pattern, Vol. 59, No. 12 / 20 April 2020, Applied Optics, 3630-3635, https://doi.org/10.1364/AO.385176
  7. 李航天,王智,王慧莹,崔粲,李智勇,磁光平面波导的单向传播特性研究,物理学报,Vol. 69, No. 7 (2020) 074206.
  8. Zhi Wang; Qiang Li; Ziling Fu; Andrew Katumba; Florian Denis-le Coarer; Damien Rontani; Marc Sciamanna; Peter Bienstman; Threshold plasticity of hybrid Si-VO2 microring resonators, OFC2020, Th2A.26, March 12, 2020.
  9. Huiying Wang, Zhi Wang, Zhiyong Li, Qiang Li, Lanlan Liu, Chongqing Wu, Dispersion characteristics of nonreciprocal silicon-on-insulator waveguide with YIG layer, ACP2019, 2019. 11. 2-5, Chengdu.
  10. Qiang Li, Zhi Wang, Ziling Fu, Huiying Wang, Can Cui, Chongqing Wu, All-optical Leaky-integrate-and-fire Neuron with Half-sigmoid Transfer Function, ACP2019, 2019. 11. 2-5, Chengdu.
  11. Cui Can, Wang Zhi, Wang Huiying, Wu Chongqing, Wang Jian, Surface roughness measurement using speckle patterns produced by optical vortex, The Asia-Pacific Optical Sensors Conference, 2019.11.19-22, New Zealand, Auckland. 新西兰奥克兰大学。APOS2019 cuican 2019 OSA student prize.
  12. 张旭,王智,崔粲,王志玄,何人鑫,王健,二维激光雷达定位建图系统设计与实现, 第45卷,第5期,2019年9月,光学技术,OPTICAL TECHNIQUE Vol.45 No.5., 文章编号: 1002-1582(2019)05-0000-05。
  13. Zhenghao Hu, Linqiang Yang, Wei Gao, Jinhua Gao, Chunyu Xu, Xiaoli Zhang, Zhi Wang, Weihua Tang, Chuluo Yang, and Fujun Zhang, Over 15.7% Efficiency of Ternary Organic Solar Cells by Employing Two Compatible Acceptors with Similar LUMO Levels, Small 2020, 2000441.
  14. Zhenghao Hu, Zhi Wang, Qiaoshi An, Fujun Zhang, Semitransparent polymer solar cells with 12.37% efficiency and 18.6% average visible transmittance, Science Bulletin 65 (2020) 131–137, https://doi.org/10.1016/j.scib.2019.09.016, 2095-9273/_ 2019 Science China Press
  15. Zhenghao Hu, Fujun Zhang, Qiaoshi An, Miao Zhang, Xiaoling Ma, Jianxiao Wang, Jian Zhang, and Jian Wang, Ternary Nonfullerene Polymer Solar Cells with a Power Conversion Efficiency of 11.6% by Inheriting the Advantages of Binary Cells, ACS Energy Lett. 2018, 3, 555−561.
  16. Zhenghao Hu, Jian Wang, Zhi Wang, Wei Gao, Qiaoshi An, Miao Zhang, Xiaoling Ma, Jianxiao Wang, Jianli Miao, Chuluo Yang, Fujun Zhang, Semitransparent ternary nonfullerene polymer solar cells exhibiting 9.40% efficiency and 24.6% average visible transmittance, Nano Energy 55 (2019) 424–432.
  17. Zhenghao Hu, Zhi Wang and Fujun Zhang, Semitransparent polymer solar cells with 9.06% efficiency and 27.1% average visible transmittance obtained by employing a smart strategy, Journal of Materials Chemistry A, 2019, 7, 7025.
  18. YUANYUAN CAI, XIAOYAN JIAO, XIAO CHEN, XIAOQING WANG, SHUAI FENG, ZHI WANG, YIQUAN WANG, Low threshold optically pumped lasing from MEH-PPV quasiperiodic photonic crystal microcavity, Applied Optics. Vol 58, No. 18, 13 June 2019, https://doi.org/10.1364/AO.58.004853
  19. 王慧莹, 王智, 崔粲, 李航天, 李强, 詹翔空, 王健, 吴重庆. 非互易旋电材料硅基矩形波导的色散特性研究[J]. 物理学报, 2019, 68(15): 154203. doi:10.7498/aps.68.20190109. Wang Hui-Ying, Wang Zhi, Cui Can, Li Hang-Tian, Li Qiang, Zhan Xiang-Kong, Wang Jian, Wu Chong-Qing. Dispersion characteristics of nonreciprocal gyroelectric silicon-on-insulator rectangular waveguide. Acta Physica Sinica, 2019, 68(15): 154203. doi:10.7498/aps.68.20190109.
  20. 傅子玲,王智,崔粲,王慧莹,吴重庆,王健,利用涡旋光束的旋转多普勒效应测量角速度,激光与光电子学进展,2019年9月,第56卷第18期:180501.
  21. 崔粲,王智,李强,吴重庆,王健.长周期多芯手征光纤轨道角动量的调制,物理学报,2019,68(06):156-163。Modulation of orbital angular momentum in long period chirally-coupled-cores fiber. Acta Physica Sinica,
  22. Yuanyuan Cai, Zhi Wang, Xiao Chen, Changwei Li, Xiaoqing Wang, Shuai Feng, Yiquan Wang, Properties of defect modes in two-dimensional organic octagonal quasicrystals at low dielectric contrast, Optics Communications, Volume 427, 15 November 2018, Pages 6–12. https://doi.org/10.1016/j.optcom.2018.06.010
  23. 李润泉,王智,崔璨,王慧莹,李颖,正六边形多孔阵列的涡旋光衍射,光学学报,2018年,38卷,10期。
  24. 崔粲, 王智, 李强, 吴重庆, 王健, 长周期手性耦合纤芯光线中光轨道角动量的调制, 中国电子学会第二十四届青年学术年会, 2018.11.23-25, 北京。
  25. 傅子玲, 王智, 崔粲, 利用涡旋光束的旋转多普勒效应测量角速度, 中国电子学会第二十四届青年学术年会, 2018.11.23-25, 北京。
  26. 王慧莹,王智, 崔粲, 李航天, 李强, 詹翔空, 非互易矩形波导的色散特性研究,中国电子学会第二十四届青年学术年会, 2018.11.23-25, 北京。
  27. 张旭,二维激光雷达同时定位建图系统设计与实现,中国电子学会第二十四届青年学术年会, 2018.11.23-25, 北京。
  28. 蔡园园,王智,陈笑,李长伟,冯帅,王义全,低折射率对比度下有机八重准周期光子晶体缺陷模的耦合特性,光学学报,2018年,38卷,2期。
  29. Zejia Huang, Chongqing Wu, Zhi Wang, Jian Wang, and Lanlan Liu, "Distributed measurement of polarization mode coupling in fiber ring based on P-OTDR complete polarization state detection," Opt. Express 26(4), 4798-4806 (2018). 14 Feb 2018, https://doi.org/10.1364/OE.26.004798
  30. Huang Zejia, Wu Chongqing, Wang Zhi, Wang Jian, Liu Lanlan, Distributed Measurement of Axes Misaligned Splicing and Multi-stress in Polarization-Maintaining Fiber Based on Polarization-OTDR, Optics Communications, 423(2018), 96-99.
  31. Qiang Li, Zhi Wang, Huiying Wang, Can Cui, Chongqing Wu, Artificial neuron based on nonlinear polarization rotation in a semiconductor optical amplifier, OPTICS_23659, Optics Communications, Volume 435, 15 March 2019, Pages 405-408, https://doi.org/10.1016/j.optcom.2018.11.074.
  32. Qiang Li, Zhi Wang, Can Cui, Runquan Li, Ying Li, Biao Liu, Chongqing Wu, Simulating the spiking response of VCSEL-based optical spiking neuron, OPTICS22493, Optics Communications, 407C (2018) pp. 327-332.
  33. Yan-Si Le(乐燕思), Zhi Wang(王智), Zhi-Yong Li(李智勇), Can Cui(崔粲), Ying Li(李颖), Qiang Li(李强), Chonghui Sun(孙翀翚), Xiaojia Song(宋晓佳), Three-mode all-optical (de)multiplexing on a SOI chip, Optics Communications (2017), Volume 406, 1 January 2018, Pages 173-176 http://dx.doi.org/10.1016/j.optcom.2017.04.059.
  34. 李润泉,王智*,崔粲,李强,李颖,刘彪,吴重庆,阵列波导激光相控阵光束偏转特性研究,光学技术,2018年3月。
  35. Huang Zejia, Wu Chongqing, Wang Zhi, Stress direction measurement based on polarization state in optical fibers using quaternion method, IEEE Photonics Journal. Issue Date: DECEMBER 2017, Volume: 9, Issue:6, On Page(s): 1-11, Print ISSN: 1943-0655, Online ISSN: 1943-0655, Digital Object Identifier: 10.1109/JPHOT.2017.2764102.
  36. 崔粲,王智,李强,乐燕思,王健,Vortex Beam Emitter based on Silicon-based Waveguide(Oral presentation),美国光学学会国际学生圈会议(IONS),2017.4.24-28,西安。
  37. 崔粲,王智,李强,王慧莹,李润泉,王健,基于硅基波导的涡旋光发射器件结构分析,中国光学工程学会,空天地海一体化信息网络大会,2017年10月18-20日,西安。
  38. 李强,王智*,崔粲,乐燕思,宋晓佳,孙翀翚,吴重庆,反脉冲时间依赖可塑性学习机制的光学实现,中国激光,2017年44卷第5期。
  39. 宋晓佳,王智*,李强,孙翀翚,乐燕思,崔粲,吴重庆,光子脉冲神经元权重器件的研制,中国激光,2017年44卷第4期。
  40. Qiang Li, Zhi Wang*, Yansi Le, Chonghui Sun, Xiaojia Song, Tianyong Zhang, Chongqing Wu, Optical Implementation of Neural Learning Algorithms Based on Cross-gain Modulation in a Semiconductor Optical Amplifier, SPIE/COS Photonics Asia, 2016, 10019-14. 12 - 14 October 2016, Beijing, China. SPIE10019.
  41. Chonghui Sun, Zhi Wang*, Xiao Gong, Qiang Li, Chongqing Wu, Xiaojia Song, Yansi Le, Solving the Hamiltonian path problem using optical fiber network, ICOCN2016, Hangzhou. 2016.9.24-2016.9.27。IEEE Photonics Society.
  42. 乐燕思,王智,李强,郭凯丽,崔粲,吴重庆,光纤型三模式复用解复用器的研究,中国激光,2016年第43卷第6期。
  43. Zhenchao Sun, Zhi Wang, Chongqing Wu, Fu Wang, Qiang Li, All-Optical Pseudorandom Bit Sequences Generator Based on TOADs, Optical Fiber Technology, March 2016, 28: 42 - 47.
  44. Fu Wang, Zhi Wang, Chongqing Wu, Yaya Mao, Zhen Chao Sun, Chao Shang, Qiang Li, Tailoring the time delay of optical pulse/sequence employing cascaded SOA and band-pass filter, Journal of Modern Optics, 2016, 63(11):1-7。Pages 1092-1098 | Received 30 Jun 2015, Accepted 30 Nov 2015, Published online: 04 Jan 2016。
  45. Zhenchao Sun, Zhi Wang, Chongqing Wu, Fu Wang, Qiang Li, All-Optical Repetition Rate Multiplication of Pseudorandom Bit Sequences Based on cascaded TOADs, Optics Communications, 2016, 363: 1-6. 15 March 2016, Pages 1-6.
  46. Zhenchao Sun; Zhi Wang; Chongqing Wu; Fu Wang; Qiang Li, "All-optical repetition rate multiplication of pseudorandom bit sequences by employing power coupler and equalizer," Opt. Eng. 54(10), 106111 (2015). doi: 10.1117/1.OE.54.10.106111
  47. Fu Wang, Zhi Wang, Chongqing Wu, Zhenchao Sun, Yaya Mao, Lanlan Liu, Qiang Li. Compared propagation characteristics of superluminal and slow light in SOA and EDFA based on rectangle signals. Optical Communications, 2015, 1 October 2015, vol. 352: 96-109。
  48. 王甫,王智,吴重庆,刘国栋,毛雅亚,孙振超,李强,掺铒光纤中方波信号高次谐波的快慢光特性研究,物理学报, 2015年24期。doi: 10.7498/aps.64.244205 。
  49. 李强,王智,吴重庆,王甫,孙振超,乐燕思,刘岚岚,基于非线性光纤环形腔镜的全光阈值器,2015年第十届全国激光技术与光电子学学术会议,2015年3月14日-18日,上海,《中国激光》2015年第42卷第7 期,0705001 。ISSN 0258-7025.
  50. Kuanglu YU, Chongqing WU, Limei ZHANG, Zhi WANG, Guodong LIU and Yao ZHAO, Parameter Designing to Improve the Energy Efficiency of Quantum Dot Semiconductor Optical Amplifier, Microwave and Optical Technology Letters, Vol. 57, No. 4, April 2015, 896-901.
  51. 王哲,王智,刘岚岚,王甫,余贶碌,吴重庆,波长扫描激光器光谱线宽的动态测量技术研究,中国激光,2015年42卷6期。
  52. 简阳天,王智,林青,孙振超,吴重庆,基于TOAD的全光倍频技术研究,中国激光,2015年2月,Vol. 42, No. 2。
  53. 邱敏,吴重庆,李善勇,王智 ,低噪声高带宽模拟光电探测器的设计和制作,半导体光电,2015,36(2):275-279. 2015年2月。
  54. Zhenchao Sun, Zhi Wang, Chongqing Wu, Fu Wang, Qing Lin, Yangtian Jian, Repetition Rate Multiplication of Pseudorandom Bit Sequences bused on TOADs, ACP2014, shanghai.
  55. Kuanglu YU, Chongqing WU, Limei ZHANG, Zhi, WANG and Yao ZHAO, Parameter Designing to Improve the Energy Efficiency of Quantum Dot Semiconductor Optical Amplifier, CIOP, changchun, 2014, CIOP-2014-0399.
  56. Fu Wang, Chongqing Wu, Zhi Wang, Guodong Liu, Lanlan Liu, Zhenchao Sun. Evaluation of slow light periodic signals considering the distortion in EDF. Chinese Physics Letters, 2014, 31(3):034207。
  57. Fu Wang, Zhi Wang, Chongqing Wu, Zhenchao Sun. Superluminal and Slow light propagation in SOA based on Coherent Population Oscillations. Chinese Optical Letters, 2014, 13(s1): S11902.
  58. 孙振超,王智,吴重庆,王甫,林青,简阳天,利用开关窗口连续可调的TOAD实现RZ码占空比调节,中国激光,2014年12月,Vol. 41, No. 12, 1209003
  59. 孙振超,王智,吴重庆,王甫,林青,简阳天,利用开关窗口连续可调的TOAD实现RZ码占空比调节,中国科技论文在线。
  60. Wang Zhi, Lin Qing, Jian Yangtian, Wu Chongqing, Dispersion measurement of the semiconductor optical amplifiers, SOPO2014, Suzhou, 22-24, August, 2014.
  61. 林青,简阳天,王苒,王智,吴重庆,半导体光放大器的色散特性研究,激光与光电子学进展,2014年6月,51, 070602 (2014)。
  62. Qiang Li, Zhi Wang, Zejia Huang, Kaili Guo, Lanlan Liu, Implementation of blind source separation for optical fiber sensing, Applied Optics, Vol. 53, Iss. 9, pp. 1832–1837 (2014). March 19 2014.
  63. Kuanglu YU, Chongqing WU, Yao ZHAO, Chao LU, Chaonan PAN, and Zhi WANG, A Method to Extend the Absorption Length for Optical Fiber Gas Sensor, ACP/IPOC 2013, Beijing, 2013, AF2I.11.
  64. Huang Zejia, Chongqing Wu, Zhenyong Li, and Zhi Wang. "Ternary optical multiplier based on SOA's nonlinear polarization rotation." In International Conference on Optical Instruments and Technology (OIT2013), pp. 90430K-90430K. International Society for Optics and Photonics, 2013.
  65. Fu Wang, Chongqing Wu, Zhi Wang, Guodong Liu, Yaya Mao, Zhenchao Sun. Slow lightof periodic rectangle signal in the erbium-doped fiber. International Conference on Optical Instruments and Technology, 2013, Proc. of SPIE 904309。(OIT200-33, Oral), the 2013 International Conference on Optical Instrument and Technology (OIT 2013), 17-19 November 2013, in Beijing, China.
  66. Fu Wang, Chongqing Wu, Zhi Wang, Guodong Liu, Yaya Mao. Slow light and distortion of arbitrary waveform periodic signal in the Erbium-doped Fiber. Asia Communications and Photonics Conference, Optical Society of America, 2013, AF2F-4。(1747687, poster presentation), the 2013 Asia Communications and Photonics Conference (ACP2013). 12-15 November 2013, Bejing Conference Center, China.
  67. Wang Zhi, Zhang Limei, Liu Yingfeng, Liu Lanlan,The λ-characteristics of the Ring Laser based on non-uniform SOA, SOPO'2013 Winter, Sanya, Hainan, 1st - 3rd, Dec. 2013. Vol 1, No. 7, Dec. 2013, pp54-58, Journal of Computer and Communication. ISSN: 2327-5219.
  68. 张丽梅,王智,刘岚岚, 孙振超, 王甫, 刘英峰, QD-SOA的四波混频及DPSK信号的异或逻辑研究, 2013_POTE (International Conference on Photonics & Optoelectronics Technology and Engineering), 北京航空航天大学,2013年11月1-3日。红外与激光工程,Vol 43, No. 12, 2014,pp4072-4077,ISSN 1007-2276
  69. 李强,王智,黄泽铗,郭凯丽,刘岚岚,基于SCBSS信号处理技术的SMS多参量光纤传感系统的研究,2013_POTE (International Conference on Photonics & Optoelectronics Technology and Engineering), 北京航空航天大学,2013年11月1-3日。红外与激光工程,Vol 43, No. 10, 2014, pp3383-3387. ISSN 1007-2276
  70. Limei Zhang, Zhi Wang, Zhenchao Sun, Lanlan Liu, Ultrahigh bit-rate all-optical multibit correlator based on quantum dot semiconductor optical amplifiers, Opt. Eng. 52 (11), 116104 (November 06, 2013); doi: 10.1117/1.OE.52.11.116104. ISSN: 0091-3286
  71. 孙振超,王智,刘岚岚,张丽梅,王甫,刘英峰,吴重庆,全光伪随机码倍速关键技术研究,2013年中国光学学会学术大会,长沙,8月15-18日,中国激光,2014年41卷1期,0105008, ISSN 0258-7025.
  72. 孙振超,王智,刘岚岚,张丽梅,王甫,刘英峰,吴重庆,全光伪随机码倍速关键技术研究,中国科技论文在线。
  73. 刘英峰,王智,刘岚岚,孙振超,张丽梅,吴重庆,半导体光放大器非均匀注入的环形腔激光器光谱特性研究,2013年中国光学学会学术大会,长沙,8月15-18日,中国激光增刊录用, ISSN 0258-7025. 2013, 第B12期(s1):43-47.
  74. Zhi Wang, Limei Zhang, Lanlan Liu, Zhenchao Sun, Yingfeng Liu, Fu Wang , Description of the FDML Laser with quasi-steady state model of the SOA, SOPO2013-50257, Beijing, May 23-25, 2013, Beijing. Optics and Photonics Journal, Vol. 3, No. 2B, pp61-65. June 2013, ISSN: 2160-8881.
  75. 李强,黄泽铗,徐雅芹,张凌云,史骥,王智,基于单模-多模-单模光纤模间干涉的传感系统研究,红外与激光工程,2014年43卷第5期,pp1630-1636。ISSN 1007-2276
  76. 黄泽铗 李强 徐雅芹 张凌云 史骥 刘岚岚 赵红敏 范玲 王智, 基于单模-多模-单模光纤模间干涉的温度传感特性研究, 2013年第八届全国激光技术与光电子学学术会议,2013年3月19日-21日,上海,《中国激光》2013年第40卷第6期,0605001。ISSN 0258-7025.
  77. 王拥军,刘永超,张靖涛,杨昭怡,王智,高速高分辨率光纤布拉格光栅传感系统的解调技术,《中国激光》2013年第40卷第2期,0205003。ISSN 0258-7025.
  78. 王拥军,吴重庆,王智,尚超,杨昭怡,忻向军等,延时可配置的全光缓存器阵列,光学学报,第33卷第7期,0706019,2013年。
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