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李文松

系别:电子工程系

职称:助理教授

邮箱:wensong@xmu.edu.cn

联系方式:18805064875

办公地点:海韵园科研二510

个人简历:

学历:

2008–2012  河南工业大学,工学学士

2012–2015  外围投注官网信誉平台,工学硕士

2015–2019  外围投注官网信誉平台,工学博士

2017–2018  Northwestern University,联合培养博士生

2018–2019  Clemson University,联合培养博士生

 

研究方向:

稀土掺杂光纤玻璃材料、高功率光纤激光技术、液晶光电子器件


主讲课程:

文献检索与科技英文论文写作(研究生课)

 

学术兼职:

IEEE/OSA/SPIE member

中国电子学会会员(2019–至今),中国光学学会会员(2020–至今)

Nanoscale, Optics Express, Applied Optics, Chinese Optics Letters, Fiber and Integrated Optics期刊审稿人

 

成果奖励:

博士研究生国家奖学金2次(20162018

外围投注官网信誉平台优秀毕业生2次(20152019

卢嘉锡优秀研究生奖(2018

福建省优秀博士学位论文(2019

 

课题项目:

可见光波段石墨烯调Q/锁模掺镨下转换光纤激光器研究,国家自然科学基金(面上)项目,2013.01–2016.12,主要参与

蓝光LD泵浦掺镨多组分硅酸盐玻璃光纤新型激光器研究,国家自然科学基金(面上)项目,2020.01–2023.12,主要参与

 

代表作:

[1] W. S. Li, et al. Directly blue diode-pumped green self-Q-switched Ho3+-doped fluoride all-fiber laser at ~550 nm. Journal of Lightwave Technology, 37(22): 5727–5732, 2019.

[2] W. S. Li, et al. 151W monolithic diffraction-limited Yb-doped photonic bandgap fiber laser at ~978 nm. Optics Express, 27(18): 24972–24977, 2019.

[3] W. S. Li, et al. Efficient continuous-wave and short-pulse Ho3+-doped fluorozirconate glass all-fiber lasers operating in the visible spectral range. Nanoscale, 10(11): 5272–5279, 2018.

[4] W. S. Li, et al. Bidirectional red-light passively Q-switched all-fiber ring lasers with carbon nanotube saturable absorber. Journal of Lightwave Technology, 36(13): 2694–2701, 2018.

[5] W. S. Li, et al. 716 nm deep-red passively Q-switched Pr:ZBLAN all-fiber laser using a carbon-nanotube saturable absorber. Optics Letters, 42(4): 671–674, 2017.

[6] W. S. Li, et al. Orange-light passively Q-switched Pr3+-doped all-fiber lasers with transition-metal dichalcogenide saturable absorbers. Optical Materials Express, 6(6): 2031–2039, 2016.

[7] W. S. Li, et al. Interlaced cholesteric liquid crystal fingerprint textures via sequential UV-induced polymer-stabilization. Optical Materials Express, 6(1): 19–28, 2016.

[8] W. S. Li, et al. Investigation on the effect of output mirror transmission in WS2-based red-light passively Q-switched Pr:ZBLAN all-fiber lasers. Applied Optics, 56(27): 7749–7755, 2017.

[9] W. S. Li, et al. Demonstration of patterned polymer-stabilized cholesteric liquid crystal textures for anti-counterfeiting two-dimensional barcodes. Applied Optics, 56(3): 601–606, 2017.

[10] W. S. Li, et al. Effect of preparation parameters on the performance of polymer-stabilized cholesteric liquid crystals for laser emission. Chinese Optics Letters, 12(11): 111602, 2014.

[11] W. S. Li, et al. Green self-Q-switched Ho:ZBLAN downconversion all-fiber laser at ~550 nm. OSA Laser Congress 2017, ASSL/LAC, Nagoya, Aichi Japan, paper: JTu2A.37.

[12] W. S. Li, et al. Green wavelength-tuning and -switching operation in holmium-doped all-fiber lasers. OSA Laser Congress 2018, ASSL/LAC, Boston, Massachusetts United States, paper: AM6A.30.

[13] T. Matniyaz, W. S. Li, et al. Highly-efficient cladding-pumped single-mode three-level Yb all-solid photonic bandgap fiber lasers. Optics Letters, 44(4): 807–810, 2019.

[14] M. N. Chen, W. S. Li, et al. Study on fluorescence characteristics of the Ho3+:ZBLAN fiber under ~640 nm excitation. Optical Materials, 97: 109351, 2019.

[15] H. Y. Lin, W. S. Li, et al. All-fiber passively Q-switched 604 nm praseodymium laser with a Bi2Se3 saturable absorber. Applied Optics, 56(4): 802–805, 2017.

[16] L. L. Ma, S. S. Li, W. S. Li, et al. Rationally designed dynamic superstructures enabled by photoaligning cholesteric liquid crystals. Advanced Optical Materials, 3(12): 1691–1696, 2015. (Front Cover)

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