马麟，现为上海交通大学电子工程系研究员，博士生导师。2009年于日本东北大学电气通信工学专业获博士学位。2010年加入日本NTT研究所任研究员（终身职），2014年回国任教，主要研究方向为面向通信和传感应用的特种光纤及光波导技术，在相关领域发表学术论文一百余篇，在国内及国际重要学术会议上做主旨报告及特邀报告十余次，获授权发明专利二十余项，研究成果在国家重大项目及工程中获得批量应用。

团队特色

热爱体育及音乐，擅长足球，活动经费充裕

特种光纤及光波导技术

特种光纤: 空芯光纤、多芯少模光纤、复杂模态光纤

光子集成器件：超材料光子器件、飞秒直写光芯片、异质集成光器件

光波导背板：新型光波导、高速光背板、短距光互连

• 入选第四批上海高层次人才计划
• 电院首届青年教师教学竞赛二等奖
• 华为技术有限公司“火花奖”

• 光纤通信概论（专业必修课）
• 导波光学（致远荣誉课程）

• 承担国家自然科学基金委青年、面上、重点项目等
• 承担国家重点研发计划新光纤、光波导背板项目等
• 承担华为光技术领域系列项目等

• 国际电工委员会IEC TC86 JWG9专家
• OECC等国际会议TPC委员
• IEEE Senior Member

1. 光波导压力测量系统（CN202110205239.2）
2. 基于压力敏感的光学波导定向耦合器的光波导压力测量系统（CN202110205253.2）
3. 用于非耦合模分复用传输的环辅助型少模光纤及其传输方法（CN201610379205.4）
4. 光纤拉丝位置自动调整装置及方法（CN201610621135.9）
5. 用于光纤熔丝效应的监测系统及方法（CN201610357311.2）
6. 低偏振模色散光纤的制造方法及设备（CN201510321106.6）
7. 一种连续制造光纤传感器的装置及方法（CN201410105829.8）
8. Method for evaluating longitudinal distribution of fictive temperature of optical fiber（JP2015010877A）
9. Optical fiber and method for manufacturing the same（JP2014164053A）
10. Core identification method and core identification device（JP2013174466A）

1. Junjie Xiong, Lin Ma*, Ying Shi, Linbin Bai, Zuyuan He,“Low Loss Ultra-Small Core Pitch All-Fiber Fan-In/Fan-Out Device For Coupled-Core Multicore Fibers”, IEEE Photonics Journal, vol.14, no.4, pp.1-5, 2022.
   
2. Ying Shi, Lin Ma*, Motoya Kaneta, Bingxin Xu, Xinyu Fan, Yudi Zhuang, and Zuyuan He, “High-speed performance evaluation of ultra-flexible polymer waveguides supporting meter-scale optical interconnects”, Optics Express, vol.30, no.15, pp.27236-27248, 2022.
   
3. Ying Shi, Bingxin Xu, Lin Ma*, Junjie Xiong, Xinyu Fan, Yudi Zhuang, Zuyuan He, “Direct bandwidth measurement of multimode waveguides based on an optical sampling technique”, Optics Letters, vol.19, no.46, pp.4908-4911, 2021.
4. Wanjing Kuang, Lin Ma*, Ying Shi, Zuyuan He, “Ultra-Compact Low Loss Polymer Wavelength (De)Multiplexer with Spot-Size Convertor Using Topology Optimization”, IEEE Photonics Journal, vol.3, no.13, pp.5-6, 2021.
5. Yinping Liu, Lin Ma*, Junjie Xiong, Chen Yang, Ming Tang, Weijun Tong, Zuyuan He, “High-Speed Performance Evaluation of Graded-Index Multicore Fiber Compatible with Multimode and Quasi-single Mode Operation”, Journal of Lightwave Technology, vol.24, no.38, pp.81-86, 2020.
6. Ying Shi, Lin Ma*, Yudi Zhuang, Zuyuan He, “Investigation on roughness-induced scattering loss of small-core polymer waveguides for single-mode optical interconnect applications”, Optics Express, vol.26, no.28, pp.81-86, 2020.
7. Shoulin Jiang, Chenyu Liang, Lin Ma*, Junjie Xiong, Wenjia Zhang, Zuyuan He, “Ultra-Low-Loss Broadband All-Fiber Mode Selective Couplers for MIMO-Less MDM Transmission”, Journal of Lightwave Technology, vol.8, no.38, pp.2376-2382, 2020.
8. Xiao Xu, Lin Ma*, Ying Shi, Zuyuan He, Takaaki Ishigure, “Directly inscribed multimode polymer waveguide and 3D device for high-speed and high-density optical interconnects”, Optics Express, vol.16, no.27, pp.22419-22428, 2019.
9. Yinping Liu, Lin Ma*, Junjie Xiong, Zuyuan He, Wufeng Xiao, Runhan Wang, Jie Lu, “Wideband multimode fiber with an optimized core size and fluorine-doped cladding for high-speed SWDM and CWDM transmission”, Optics Express, vol.11, no.27, pp.15433-15443, 2019.
10. Shoulin Jiang, Lin Ma*, Zhaopeng Zhang, Xiao Xu, Shuai Wang, Jiangbing Du, Chen Yang, Weijun Tong, Zuyuan He, “Design and Characterization of Ring-Assisted Few-Mode Fibers for Weakly Coupled Mode-Division Multiplexing Transmission”, Journal of Lightwave Technology, vol.1, no.19, pp.5547-5555, 2018.
11. Shoulin Jiang, Lin Ma*, Shuai Wang, Xinyu Fan, Zuyuan He, “Mode-interference-induced oscillation in propagation speed of fiber fuse in few-mode fibers”, Optics Letters, vol.17, no.43, pp.4252-4255, 2018.
12. Yinping Liu, Lin Ma*, Chen Yang, Weijun Tong, Zuyuan He, “Long-range Raman distributed temperature sensor with high spatial and temperature resolution using graded-index few-mode fiber”, Optics Express, vol.16, no.26, pp.20562-20571, 2018.
13. Xiao Xu, Lin Ma*, Marika Immonen, Xinhong Shi, Brandon W. Swatowski, Jon V. DeGroot, Zuyuan He, “Practical Evaluation of Polymer Waveguides for High-Speed and Meter-Scale On-Board Optical Interconnects”, Journal of Lightwave Technology, vol.16, no.36, pp.3486-3493, 2018.
14. Xiao Xu, Lin Ma*, Zuyuan He, “3D polymer directional coupler for on-board optical interconnects at 1550 nm”, Optics Express, vol.13, no.26, pp.16344-16351, 2018.
15. Yinping Liu, Lin Ma*, Zuyuan He, Chen Yang, Weijun Tong, “Multimode and single-mode fiber compatible graded-index multicore fiber for high density optical interconnect application”, Optics Express, vol.9, no.26, pp.11639-11648, 2018.
16. Xiao Xu, Lin Ma*, Shoulin Jiang, Zuyuan He, “Circular-core single-mode polymer waveguide for high-density and high-speed optical interconnects application at 1550 nm”, Optics Express, vol.21, no.25, pp.25689-25696, 2017.
17. Yinping Liu, Lin Ma*, Zuyuan He, “Birefringence Variation Independent Fiber-Optic Current Sensor Using Real-Time SOP Measurement”, IEEE Photonics Journal, vol.9, no.5, pp.1-9, 2017.
18. Lin Ma*, Kyozo Tsujikawa, Nobutomo Hanzawa, Shinichi Aozasa, Saki Nozoe, Fumihiko Yamamoto, “Design and Fabrication of Low Loss Hole-Assisted Few-Mode Fibers With Consideration of Surface Imperfection of Air Holes”, Journal of Lightwave Technology, vol.34, no.22, pp.5164-5169, 2016.
19. Lin Ma*, Nobutomo Hanzawa, Kyozo Tsujikawa, Yuji Azuma, “Launch device using endlessly single-mode PCF for ultra-wideband WDM transmission in graded-index multi-mode fiber”, Optices Express, vol.20, pp.24903-24909, 2012.
20. Lin Ma*, Takashi Katagiri, Yuji Matsuura, “Surface-plasmon resonance sensor using silica-core Bragg fiber”, Optics Letters, vol.34, no.7, pp.1069-1071, 2009.
21. Lin Ma*, Yuji Matsuura, “Bragg fiber taper for subwavelength beam generation”, Journal of Lightwave Technology, vol.26, no.24, pp.3847-3852, 2008.

更多论文请访问：https://www.researchgate.net/profile/Lin-Ma-10