万明桂
2024-01-29 15:38 万明桂  审核人:王洪光

万明桂 讲师

教育背景博士

研究领域光学工程

研究方向多波长光纤激光器、扫频光纤激光器及其应用

电子邮箱noiswade@163.com

所在系所光电工程系

办公地点电子信息楼609

 

 

个人简介

本科毕业于电子科技大学光信息科学与技术专业。2012年进入暨南大学硕博连读,生物医学物理与生物医学信息技术专业,期间从事新型光纤激光器的研究,主要研究快速扫频光纤激光器的实现及其在相干层析成像(OCT)上的应用,期间发表了8SCIEI收录的期刊文章,并参与了多个国家自然科学基金项目。2018年以特聘讲师身份加入广州大学,主持国家自然科学基金青年科学基金项目1项、广东省自然科学基金面上项目2项。


担任主要课程

光纤传感技术,光电信息综合实验


参与课题

1. 基于光源设计的微波光子滤波器及应用研究,国家自然科学基金,2015 -2018

2. 基于新型扫频光源的多普勒频移补偿关键技术研究,国家自然科学基金2018-2020

3. 基于光纤延迟线环和光栅的智能光子射频存储器,国家自然科学基金,2016-2018

4. 基于啁啾光谱解调的快速微波光子生物医学传感技术,国家自然科学基金,2018--2020


主持课题

1.“基于移频环的梳状扫频光源结合光学游标效应面向OCT应用的研究”,国家自然科学基金青年项目(30万元),2024-2026,主持

 

主要论文

[1] M. G. Wan, X. H. Feng, Y. B. Jin, Z. H. Li, and B. O. Guan, "Multiwavelength erbium-doped fiber laser based on a WaveShaper," Optical Engineering 53(5), 056115-056115 (2014).

[2] M. G. Wan, L. Wang, F. Li, Y. Cao, X. D. Wang, X. H. Feng, B. O. Guan, and P. K. A. Wai, "Rapid, k-space linear wavelength scanning laser source based on recirculating frequency shifter," Optics Express 24(24), 27614-27621 (2016).

[3] M. G. Wan, F. Li, X. H. Feng, X. D. Wang, Y. Cao, B. O. Guan, D. M. Huang, J. H. Yuan, and P. K. A. Wai, "Time and Fourier domain jointly mode locked frequency comb swept fiber laser," Optics Express 25(26), 32705-32712 (2017).

[4] L. Wang, M. G. Wan, Z. K. Shen, X. D. Wang, Y. Cao, X. H. Feng, and B. O. Guan, "Wavelength-swept fiber laser based on bidirectional used linear chirped fiber Bragg grating," Photonics Research 5(3), 219-223 (2017).

[5] D. K. Lu*, M. G. WAN*, Z. W. Li, S. H. Huang, W. Zhang, B. C. Li, X. L. Lu, X. H. Li and X. H. Fang, "Photonic bandgap terahertz fibers based on honeycombed tubes," Optics Express 29(26), 43516-43530 (2021).

[6] S. H. Huang*, M. G. Wan*, J. Y. Wu, D. K. Lu, B. Z. Zhang, Y. H. Zheng, C. H. Liu, and X. H. Fang, "Precise laser linewidth measurement by feature extraction with short-delay self-homodyne," Applied Optics 61(7), 1791-1796 (2022).

[7] S. H. Huang*, M. G. Wan*, C. H. Liu, D. K. Lu, X. H. Fang, "Laser linewidth measurement using the coherent envelope based on short-delay self-homodyne," Optical Engineering 61(4), 044101 (2022).

[8] J. W. Li, M. Zhang, M. G. Wan, C. L. Lin, S. H. Huang, C. H. Liu, Q. P. He, X. Z. Qiu, and X. H. Fang, "Ultrasensitive Refractive Index Sensor based on Enhanced Vernier effect through Cascaded Fiber Core-offset Pairs," Optics Express 28(3), 4145-4155 (2020).

[9] X. H. Fang, W. Zhang, J. W. Li, C. L. Lin, Z. N. Chen, M. Zhang, S. H. Huang, D. K. Lu, M. G. Wan, and X. Z. Qiu, "Signal processing assisted Vernier effect in a single interferometer for sensitivity magnification," Optics Express 29(8), 11570-11581 (2021).

[10] X. H. Fang, C. L. Lin, M. G. Wan, D. K. Lu, S. H. Huang, J. Li, Z. Q. Huang, and W. Zhang, "Ultrasensitive RI Sensing Based on the Signal-Processing-Assisted Vernier Effect of a Single FFPI," IEEE PHOTONICS TECHNOLOGY LETTERS 34(11), 563-566 (2022).

 

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