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    教师信息

    韦小明Wei Xiaoming
    职称:教授


    个人简介

    韦小明,华南理工大学物理与光电学院教授、博士生导师、小米青年学者,国家海外高层次引进青年人才,美国光学学会《Optics Express》期刊编委(光纤激光方向),第九届中国基础光学专业委员会成员,中国激光杂志社青年编辑委员会委员,《光学学报》青年编委,欧洲激光和光电会议技术委员会成员(CLEO/Europe TPC,2023/2025年)。

    长期从事大功率高重复频率(GHz)飞秒光纤激光基础理论与关键技术研究,并开展大功率GHz飞秒激光在精细加工、医疗健康、超快测量等领域应用研究;发表期刊论文120余篇,包括Nature Communications、Physical Review Letters、Science Advances、Light: Science and Applications等期刊;在CLEO、SPIE、IPC、ACP、OECC等光学会议上作(特邀)口头报告30余次;授权美国发明专利7项、中国专利26项;主持国家自然科学基金重点项目、国家重点研发计划项目(首席)、国家自然科学基金面上项目等;获2023年度国家技术发明二等奖(排4)、2023年度中国光学工程学会光纤激光五年优秀成果奖、第七届中国国际“互联网+”大学生创新创业大赛银奖。

    教育与工作经历

    2019/9-至今      华南理工大学

    2017/5-2019/8    美国加州理工学院,博士后

    2012/9-2017/4    香港大学,光学,博士&博士后,导师:Kenneth K.Y. Wong

    2009/9-2012/6    华南理工大学,光学,硕士,导师:杨中民

    2005/9-2009/6    华南理工大学,光信息科学与技术,本科

    研究方向

    主要研究方向包括大功率高重复率飞秒光纤激光理论与技术及其在时空频实时测量、精密加工、生物光子学等领域应用。

    代表性成果

    1. Y. Yang†, X. Chen†, W. Lin†, X. Hu, H. Xu, Y. Ma, Z. Liang, L. Ling, Z. Xiong, Y. Guo, T. Liu, X. Wei*, and Z. Yang*,”Polarization symmetry breaking of GHz dissipative solitons”, Physical Review Letters, 2025, in press.

    2. L. Ling†, W. Lin†, Z. Liang†, M. Pan, C. Wei, X. Chen, Y. Yang, Z. Xiong, Y. Guo, X. Wei*, and Z. Yang*, “Practical GHz single-cavity all-fiber dual-comb laser for high-speed spectroscopy”, Light: Science & Applications 14, 133 (2025).

    3. X. Chen†, W. Lin†, X. Hu†, W. Wang, Z. Liang, L. Ling, Y. Yang, Y. Guo, T. Liu, D. Chen, X. Wei*, and Z. Yang,*“Dynamic gain driven mode-locking in GHz fiber laser”. Light: Science & Applications 13, 265 (2024).

    4. Y. Guo†, W. Lin†, W. Wang, R. Zhang, T. Liu, Y. Xu, X. Wei*, and Z. Yang*, “Unveiling the complexity of spatiotemporal soliton molecules in real time,” Nature Communications 14, 2029 (2023).

    5. Z. Li, Y. Xu, S. Shamailov, X. Wen, W. Wang, X. Wei, Z. Yang, S. Coen, S. G. Murdoch, and M. Erkintalo*, “Ultrashort dissipative Raman solitons in Kerr resonators driven with phase-coherent optical pulses”, Nature Photonics 1, 8 (2023).

    6. Y. Guo†, X. Wen†, W. Lin†, W. Wang, X. Wei*, and Z. Yang*, “Real-time multispeckle spectral-temporal measurement unveils the complexity of spatiotemporal solitons,” Nature Communications 12, 67 (2021).

    7. J. C. Jing†, X. Wei†*, and L. V. Wang*, “Spatio-temporal-spectral imaging of non-repeatable dissipative soliton dynamics,” Nature Communications 11, 2059 (2020).

    8. X. Wei†, Y. Shen†, J. C. Jing†, A. S. Hemphill, C. Yang, S. Xu, Z. Yang*, and L. V. Wang*, “Real-time frequency-encoded spatiotemporal focusing through scattering media using a programmable 2D ultrafine optical frequency comb,” Science Advances 6, eaay1192 (2020).

    9. X. Wei, J. C. Jing, S. C. Shen, and L. V. Wang*, “Harnessing a multi-dimensional fiber laser using genetic wavefront shaping,” Light: Science & Applications 9, 149 (2020).

    10. C. Kong†, C. Pilger†, H. Hachmeister†, X. Wei*, T. H. Cheung, C. S. W. Lai, K. K. Tsia, K. K. Y. Wong*, and T. Huser*, “High-contrast, fast chemical imaging by coherent Raman scattering using a self-synchronized two-colour fibre laser,” Light: Science & Applications 9, 25 (2020).

    11. H. Xiu†, Y. Fan†, T. Wang, W. Wang, W. Lin, X. Wei*, and Z. Yang*, 2-kW all polarization-maintaining fiber ultrafast laser at a GHz repetition rate, Chin. Opt. Lett. 23, 031402- (2025)

    12. Y. Yang, W. Lin, Y. Guo, X, Hu, H. Xu, D, Chen, X. Wei*, and Z. Yang*, “Phase-encoding of loosely bound soliton molecules”, APL Photonics 9, 031305 (2024)

    13. H. Xiu†, Y. Fan†, W. Lin, W. Wang, M. Hao, J. Wen, X. Chen, T. Wang, X. Wei*, and Z. Yang*, 1200-W all polarization-maintaining fiber GHz-femtosecond-pulse laser with good beam quality, Opt. Express 31, 41940-41951 (2023).

    14. Y. Fan†, H. Xiu†, W. Lin, X. Chen, X. Hu, W. Wang, J. Wen, H. Tian, M. Hao, C. Wei, L. Wang, X. Wei*, and Z. Yang*, “Nonlinear chirped pulse amplification for a 100-W-class GHz femtosecond all-fiber laser system at 1.5 μm”, High Power Laser Science and Engineering 11, e50 (2023).

    15. J. Wu†, Z. Liang†, W. Lin, L. Ling, Y. Zhang, Y. Yang, X. Wei*, Z. Yang*, “All-Fiber High-Power 3 GHz Ultrafast Laser System at 2.0 μm”, Journal of Lightwave Technology 41, 1559 (2023).

    16. Z. Li, X. Wei, Z. Yang*, “Pulsed Laser 3D-Micro/Nanostructuring of Materials for Electrochemical Energy Storage and Conversion”, Progress in Materials Science 133, 101052 (2023).

    17. J. Zhang, J. Wen, Y. Wang, W. Wang, W. Lin, X. Wei*, and Z. Yang*, “Watt-level gigahertz femtosecond fiber laser system at 920 nm,” Opt. Lett. 47, 4941 (2022).

    18. W. Lin, X. Chen, X. Hu, T. Luo, Y. Fan, W. Wang, Z. Liang, L. Ling, M. Hao, X. Wei*, and Z. Yang*, “Manipulating the polarization dynamics in a >10-GHz Er3+/Yb3+ fiber Fabry-Pérot laser,” Opt. Express 30, 32791 (2022).

    19. G. Tang, Z. Liang, W. Huang, D. Yang, L. Tu, W. Lin, X. Song, D. Chen, Q. Qian, X. Wei*, and Z. Yang*, “Broadband high-gain Tm3+/Ho3+ co-doped germanate glass multimaterial fiber for fiber lasers above 2 µm,” Opt. Express 30, 32693-32703 (2022).

    20. L. Ling, W. Lin, W. Wang, Z. Liang, X. Chen, Y. Guo, X. Wei*, and Z. Yang*, “Threshold reduction of GHz-repetition-rate passive mode-locking by tapering the gain fiber,” Opt. Express 30, 13095 (2022).

    21. W. Wang, W Lin, X Chen, X Guan, X Wen, T Qiao, X Wei*, and Z Yang*, “High-speed wavelength-swept femtosecond source from 1055 to 1300 nm using a GHz femtosecond fiber laser,” Opt. Lett. 47, 1677 (2022).

    22. Z. Liang, W. Lin, J. Wu, X. Chen, Y. Guo, L. Ling, X. Wei*, and Z. Yang*, “>10 GHz femtosecond fiber laser system at 2.0 μm,” Opt. Lett. 47, 1867-1870 (2022).

    23. G. Tang, Z. Liang, W. Huang, D. Yang, W. Lin, L. Tu, D. Chen, Q. Qian, X. Wei*, and Z. Yang*, 4.3 GHz fundamental repetition rate passively mode-locked fiber laser using a silicate-clad heavily Tm3+-doped germanate core multimaterial fiber, Opt. Lett. 47, 682 (2022)

    24. G. Tang, Y. Zhang, D. Yang, W. Lin, W. Huang, L. Tu, F. Wu, N. Yan, Q. Qian, X. Wei*, and Z. Yang*, “Silicate-clad heavily Yb3+ doped phosphate core multimaterial fiber with high gain per unit length for mode-locked fiber laser applications”, Opt. Lett. 46, 2027 (2021).

    25. X. Chen†, W. Lin†, W. Wang, X. Guan, X. Wen, T. Qiao, X. Wei*, and Z. Yang*, “High-power femtosecond all-fiber laser system at 1.5 μm with a fundamental repetition rate of 4.9 GHz”, Opt. Lett. 46, 1872 (2021).

    26. W. Lin†, W. Wang†, B. He†, X. Chen, X. Hu, Y. Guo, Y. Xu, X. Wei*, and Z. Yang*, “Vector soliton dynamics in a high-repetition-rate fiber laser,” Opt. Express 29, 12049 (2021).

    27. Y. Liu, J. Wu, X. Wen, W. Lin, W. Wang, X. Guan, T. Qiao, Y. Guo, W. Wang, X. Wei*, and Z. Yang*, “>100 W GHz femtosecond burst mode all-fiber laser system at 1.0 µm,“ Optics Express 28, 13414 (2020).


    联系方式

    电子邮箱:xmwei@scut.edu.cn





    发布者:梁栋  发布时间:2025-05-10  浏览次数:21046

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