肖世莹

博士、副教授

基本信息

办公电话:51684015 电子邮件: syxiao@bjtu.edu.cn
通讯地址:光波所304 邮编:

教育背景

2013.09.—2019.06. 北京交通大学,电子信息工程学院,通信与信息系统,工学博士

2009.09.—2013.06. 北京交通大学,电子信息工程学院,通信工程,工学学士

工作经历

2019.10~2022.12 北京交通大学 电子信息工程学院 讲师

2023.1至今 北京交通大学 电子信息工程学院 副教授

研究方向

  • 新型特种光纤、光电器件及光纤传感
  • 通信工程
  • 人工智能

招生专业

  • 信息与通信工程硕士
  • 通信工程(含宽带网络、移动通信等)硕士
  • 人工智能硕士

科研项目

  • 教育部“规划”: 考虑个体差异的人体疲劳识别方法研究, 2022-2024
  • 北京交通大学: 人机显示设备视频图像识别技术研制, 2022-2022
  • 国家重点研发计划-课题: 悬臂式光波导生物纳米测量系统及应用研究, 2021-2025
  • 北京市自然基金“面上”: 基于微波光子滤波和色散效应的工频电场传感技术研究, 2021-2023
  • 国家自然科学基金"青年基金": 面向高精度快响应呼吸监测的光纤激光温湿度传感机理研究, 2021-2023
  • 光纤DBR激光温湿度传感系统研究
  • 面向工频电场探测的微波光子技术研究
  • 基于表面等离子体平面内波带片的涡旋光束探测器件的研究

教学工作

论文/期刊

  1.  S. Y. Xiao, B. L. Wu, C. R. Sun, Z. X. Wang, Y. C. Jiang, "Strain and Temperature Discrimination Based on a Mach-Zehnder Interferometer With Cascaded Single Mode Fibers", Photonic Sensors, Vol. 13, pp. 230122, March 2023.
  2. S. Y. Xiao, B. L. Wu, Z. X. Wang, Y. C. Jiang and C. R. Sun, "Strain and Temperature Discrimination by Fourier Analyzing Transmission Spectrum of an In-fiber Mach-Zehnder Interferometer," 2022 IEEE 7th Optoelectronics Global Conference (OGC), Shenzhen, China, 2022, pp. 86-90.
  3.  S. Y. Xiao, B. L. Wu, Z. X. Wang, Y. C. Jiang, "A peanut taper based Mach-Zehnder interferometric sensor for strain and temperature discrimination", Optical Fiber Technology, Vol. 70, pp. 102871, May 2022.
  4.  S. Y. Xiao, B. L. Wu, Y. Dong, H. Xiao, S. Z. Yao and S. S. Jian, “Strain and Temperature Discrimination using Two Sections of PMF in Sagnac Inteferometer,” Optics and Laser Technology, vol. 113, pp. 394-398, May 2019.
  5. S. Y. Xiao, Y. Dong, H. Xiao, G. B. Ren, and S. S. Jian, “SMFs With a Ge/F Co-Doped Inner Core for SBS-Based Discriminative Sensing of Temperature and Strain,” IEEE Sensors Journal, vol. 18, no. 3, pp. 1087-1093, Feb 1, 2018. 
  6. S. Y. Xiao, Y. Wu, Y. Dong, H. Xiao, Y. C. Jiang, W. X. Jin, H. S. Li, and S. S. Jian, “Simultaneous Measurement of Refractive Index and Temperature using SMP in Sagnac Loop,” Optics and Laser Technology, vol. 96, pp. 254-258, Nov 1, 2017.
  7.  Y. Dong, S. Y. Xiao, B. L. Wu, H. Xiao, and S. S. Jian, "Refractive Index and Temperature Sensor Based on D-Shaped Fiber Combined With a Fiber Bragg Grating,", IEEE Sensors Journal, vol. 19, no. 4, pp. 1362-1367, Feb 15 2019.
  8.  Y. Wu, S. Y. Xiao, Y. Xu, Y. Shen, Y. C. Jiang, W. X. Jin, Y. G. Yang, and S. S. Jian, "Highly sensitive force sensor based on balloon-like interferometer,", Optics and Laser Technology, vol. 103, pp. 17-21, Jul 2018.
  9.  Y. Dong, S. Y. Xiao, H. Xiao, J. X. Liu, C. R. Sun, and S. S. Jian, "An Optical Liquid-Level Sensor Based on D-Shape Fiber Modal Interferometer,", IEEE Photonics Technology Letters, vol. 29, no. 13, pp. 1067-1070, Jul 1 2017.
  10.  Y. Dong, B. L. Wu, S. Y. Xiao, S. S. Jian, "Dual-wavelength Brillouin-erbium fiber laser with tunable wavelength spacing," Optical Fiber Technology, vol. 48, pp. 99-103, 2019.
  11.  H. Xiao, H. S. Li, B. L. Wu, Y. Dong, S. Y. Xiao, S. S. Jian, "Elliptical hollow-core optical fibers for polarization-maintaining few-mode guidance," Optical Fiber Technology, vol. 48, pp. 7-11, 2019.
  12.  Y. Dong, B. L. Wu, M. G. Wang, H. Xiao, S. Y. Xiao, C. R. Sun, H. S. Li, and S. S. Jian, "Magnetic field and temperature sensor based on D-shaped fiber modal interferometer and magnetic fluid,", Optics and Laser Technology, vol. 107, pp. 169-173, Nov 2018.
  13.  Y. Shen, G. B. Ren, Y. G. Yang, S. Z. Yao, S. Y. Xiao, Y. C. Jiang, Y. Xu, Y. Wu, W. X. Jin, and S. S. Jian, "Generation of the Tunable Second-Order Optical Vortex Beams in Narrow Linewidth Fiber Laser,", IEEE Photonics Technology Letters, vol. 29, no. 19, pp. 1659-1662, Oct 2017.
  14.  H. Xiao, H. S. Li, G. B. Ren, Y. Dong, S. Y. Xiao, and S. S. Jian, "Polarization-Maintaining Hollow-Core Photonic Bandgap Few-Mode Fiber in Terahertz Regime,", IEEE Photonics Technology Letters, vol. 30, no. 2, pp. 185-188, Jan 15 2018.
  15.  H. Xiao, H. S. Li, G. B. Ren, Y. Dong, S. Y. Xiao, J. X. Liu, B. Z. Wei, and S. S. Jian, "Polarization-Maintaining Supermode Fiber Supporting 20 Modes,", IEEE Photonics Technology Letters, vol. 29, no. 16, pp. 1340-1343, Aug 15 2017.
  16. W. X. Jin, Y. Xu, Y. C. Jiang, Y. Wu, S. Z. Yao, S. Y. Xiao, Y. Q. Hui, W. H. Ren, S. S. Jian, "Strain and temperature characteristics of the LP11 mode based on a few-mode fiber Bragg grating and core-offset splicing," Laser Physics, vol. 28, no. 2, 2018.
  17.  S. Z. Yao, G. B. Ren, Y. G. Yang, Y. Shen, Y. C. Jiang, S. Y. Xiao, and S. S. Jian, "Few-mode fiber Bragg grating-based multi-wavelength fiber laser with tunable orbital angular momentum beam output," (in English), Laser Physics Letters, vol. 15, no. 9, Sep 2018.
  18. Y. Dong, G. B. Ren, H. Xiao, Y. X. Gao, H. S. Li, S. Y. Xiao, and S. S. Jian, "Simultaneous Temperature and Strain Sensing Based on M-Shaped Single Mode Fiber," IEEE Photonics Technology Letters, vol. 29, no. 22, pp. 1955-1958, Nov 15 2017.
  19.  Y. G. Yang, M. G. Wang, Y. Shen, Y. Tang, J. Zhang, Y. Wu, S. Y. Xiao, J. X. Liu, B. Z. Wei, Q. Ding, and S. S. Jian, "Refractive Index and Temperature Sensing Based on an Optoelectronic Oscillator Incorporating a Fabry-Perot Fiber Bragg Grating," IEEE Photonics Journal, vol. 10, no. 1, Feb 2018.


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