Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
Main positions:Professor
Other Post:Vice Dean
主要研究方向一 光纤通信
光纤通信作为信息社会的支柱已成为“信息高速公路”的骨干网和本世纪通信技术的主要发展方向之一,随着因特网和多媒体日益普及,光纤通信向着高速率、大容量和长距离方向发展。针对光纤通信的光波导理论、非线性导波光学等理论展开研究,系统研究下一代光通信技术、基于普通光纤、光子晶体光纤的新型器件等,相关研究成果已经被境外SCI期刊发表,如IEEE Journal of Quantum Electronics(JCR分区2区)等。
主要研究方向二 特种光纤与光纤传感
传感技术与光通信是二十一世纪实现“信息社会”的重要支撑技术之一,已经得到快速发展。针对特种光纤(如多芯光纤、掺杂光纤)的理论拓展进行研究,探索基于特种光纤的光纤传感器件设计及制作,并利用传感技术进行光纤复合架空地线的分布式温度与应变监测,相关研究成果已经被境外SCI期刊发表,如Optics Express(JCR分区2区)等。
近三年指导学生发表论文:
Min Liu, Zhaohao Zhu, et al., High Accuracy and Fast Demodulation Algorithm of Optical Frequency Domain Reflectometer Based on ELM, Journal of Lightwave Technology, Article Vol. 42, No. 1, pp. 441-452, 2024.
Min Liu, Xuemin Leng, et al. Simultaneous and Ultrasensitive Measurement of Refractive Index and Temperature Based on SPR of Hollow-core Anti-resonant Fibers. Plasmonics, 2024. DOI: 10.1007/s11468-024-02217-4
Min Liu, Xuemin Leng, et al. Ultrahigh Sensitivity Refractive Index Sensor Based on Surface Plasmon Resonance Effect of Double-ring Hollow-core Anti-Resonant Fiber. Plasmonics, 2023. DOI: 10.1007/s11468-023-02069-4
Yongbo Fu, Min Liu, Ping Shum, Lihua Chu, An ultrahighly sensitive photonic crystal fiber based surface plasmon resonance sensor, Optik, Vol. 212, pp.164649(1)-(6), 2020.
Lihua Chu,Min Liu, Ping Shum, Yongbo Fu, Simultaneous Achievement of Ultra-short Length and High Extinction Ratio Polarization Splitter Based on the Dual-core Photonic Crystal Fiber with Ge20Sb15Se65 Glass, Applied Optics, Vol.58, No.24, pp.7892-7896, 2019.