学历：

2018–2019  Clemson University，联合培养博士生

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

2015–2019 厦门大学，工学博士

2012–2015 厦门大学，工学硕士

2008–2012 河南工业大学，工学学士

研究方向：

稀土光谱与新型激光技术

光纤/固体激光理论与实验研究

光纤/固体激光器研发及应用

主讲课程：

《文献检索及科技英文论文写作》（研究生课）

《光波导理论与技术》（研究生课）

《文献信息检索与科技写作》（本科生课）

学术兼职：

IEEE member（2020–至今），Optica member（2020–至今）

中国光学学会会员（2021–至今），中国光学工程学会会员（2021–至今）

成果奖励：

博士研究生国家奖学金2次（2016、2018）

厦门大学优秀毕业生2次（2015、2019）

卢嘉锡优秀研究生奖（2018）

福建省优秀博士学位论文（2020）

中国光学学会自然科学二等奖2/5（2025）

课题项目：

国家自然科学基金区域创新发展联合基金项目，2026-01至2029-12，在研，参与

国防激光技术重点实验室开放课题，2024-09至2025.09，结题，主持

国家自然科学基金（青年）项目，2021-01至2023-12，结题，主持

厦门市青年创新基金项目，2020-07至2023-06，结题，主持

代表作：

【2026年】

① W. Shi, Y. L. Fei, W. S. Li*, “Towards direct 100-fs visible output at 750 nm from holmium fiber lasers: soliton dynamics and dispersion optimization,” Chaos, Solitons and Fractals 204, 117779 (2026).

② Y. L. Fei, Q. Y. Zou, D. L. Zhong, W. Shi, Y. Ma, L. J. Xu, W. S. Li*, “Numerical model and experimental validation of visible Q-switched holmium-doped fiber lasers,” IEEE Journal of Quantum Electronics 62(1), 1600108 (2026).

③ 徐凯琦, 费姚琳, 石玮, 马瑶, 徐鎏婧, 李文松*. 低量子亏损545 nm光纤激光器. 中国激光53(6), 0601004 (2026).

【2025年】

① K. Q. Xu, X. D. Ao, Y. L. Fei, W. Shi, D. Piatkowski, W. S. Li*, “Red-diode pumped 1.2-µm holmium-doped fluoride fiber lasers Spectroscopic analysis and performance optimization,” Journal of Lightwave Technology 43(15), 7370–7379 (2025).

② P. Wang, X. D. Chen, W. Shi, Y. L. Fei, Y. Ma, L. J. Xu, D. Piatkowski, W. S. Li*, “Blue diode pumping: unveiling the potential for deep-red Ho3+-doped fluoride fiber lasers,” Optics Communications 589, 131983 (2025).

③ X. D. Chen, K. Q. Xu, Y. L. Fei, Y. Ma, L. J. Xu, L.-J. Chen, W. S. Li*, “Co-lasing at 1.2 µm for enhanced visible emission in Ho³⁺:ZrF₄ fiber lasers,” IEEE Photonics Technology Letters 37(23): 1393–1396 (2025).

④ Y. L. Fei, W. Shi, Y. Ma, L. J. Xu, W. S. Li*, “Numerical design on blue diode pumping of deep-red lasers in Ho³⁺/Tb³⁺ co-doped fluoride fibers,” IEEE Journal of Quantum Electronics 61(6), 1600107 (2025).

⑤ S. H. Xu, Y. Chen, Y. N. Lin, X. D. Chen, K. Q. Xu, W. S. Li*, “Numerical investigation of 1662 nm holmium-doped fiber lasers enabled by a 751 nm fiber laser pump,” IEEE Journal of Quantum Electronics 61(2), 1600108 (2025).

【2024年】

① A. X. Yu, P. Wang, K. Q. Xu, X. D. Chen, Y. L. Fei, W. S. Li*, “Numerical analysis of cascade lasing in Ho:ZBLAN fiber lasers with efficient output at ~750 nm,” Optics Communications 558, 130385 (2024).

② Y. Chen, Y. L. Wu, P. Wang, S. H. Xu, W. S. Li*, “Direct white light luminescence from Ho³⁺/Pr³⁺ co-doped fluoride fiber with blue diode pumping,” Results in Optics 14, 100623 (2024).

③ W. S. Li*(共同通讯), et al. “Advances, challenges and prospects of visible fiber lasers in display technologies,” Displays 82: 102630, 2024.

【2023年】

① W. S. Li*, Y. L. Wu, S. H. Xu, P. Wang, Y. Chen, D. Piatkowski, “Dual wavelength pumping scheme for directly diode-pumped 75X-nm fiber lasers,” Journal of Lightwave Technology 41(22): 7006–7013, 2023.

② W. S. Li*, Z. B. He, A. X. Yu, Y. L. Wu, “Pump excited-state absorption at 442 ± 1 nm for efficient visible fluoride fiber lasers,” Journal of Lightwave Technology 41(6): 1834–1842, 2023.

③ Z. B. He, Y. L. Wu, A. X. Yu, W. S. Li*, “Enhancement of visible emission in an Ho³⁺-doped fluorozirconate fiber using dual-wavelength pumping at 44X nm,” Journal of Luminescence 254: 119542, 2023.

【2022年】

① Z. B. He, W. S. Li*, A. X. Yu, Y. L. Wu, Z. P. Cai, “Efficient UV-visible emission enabled by 532 nm CW excitation in an Ho³⁺-doped ZBLAN fiber,” Optics Express 30(7): 10414–10427, 2022.

【2021年】

① S. H. Ji, S. Q. Liu, X. J. Lin, Y. Y. Song, B. Xiao, Q. C. Feng, W. S. Li*(共同通讯), et al. “Watt-level visible continuous-wave upconversion fiber lasers toward the “green gap” wavelengths of 535−553 nm,” ACS Photonics 8(8): 2311–2319, 2021.

② X. J. Lin, Q. C. Feng, Y. Zhu, S. H. Ji, B, Xiao, H. Y. Xu, W. S. Li*(共同通讯), et al. “Diode-pumped wavelength-switchable visible Pr³⁺:YLF laser and vortex laser around 670 nm,” Opto-Electronic Advances 4(4): 210006-1-8, 2021.

③ W. S. Li, et al. “High-efficiency broadband tunable green laser operation of direct diode-pumped holmium-doped fiber,” Optics Express 29(10): 15564–15575, 2021.

【2019年】

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.

【2018年】

① 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.  

② 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.

【2017年】

① 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.

② 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.  

③ 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.

【2016年】

① 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.  

② 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.

【2014年】

① 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.