学历：

解放军信息工程大学，电子科学与技术，工学学士

九游网站入口官网，电路与系统，工学博士

美国伊利诺伊大学厄巴纳香槟分校，激光物理，联合培养博士

研究方向：

GHz高重频飞秒激光光源、飞秒激光频率梳、飞秒激光生物医学成像和特种材料加工

主讲课程：

光子学原理及应用（本科生课，C级双语）

激光器件（研究生课）

高级光纤传感理论与技术（研究生课）

学术兼职：

Applied Physics Letters, Optics Express, IEEE Journal of Selected Topics in Quantum Electronics, Applied Optics, Journal of the Optical Society of America B, Optics Continuum, Laser Physics Letters等学术期刊审稿人

美国光学学会（OSA）、IEEE会员，2017−现在

课题项目：

GHz高重频飞秒光纤激光脉冲形成机理和噪声抑制的研究，国家自然科学基金（青年）项目，2020.01−2022.12，主持

用于飞秒加工的高重频飞秒激光不稳定机理研究，九游网站入口官网校长基金科研启动项目，2019.01−2019.12，主持

广州市科技计划项目重点项目课题，2019.04−2022.03，50万，主持

3 GHz高重频飞秒光纤激光器的研究，中央高校基本科研业务费博士启动项目，2017.01−2018.12，主持

3 GHz 基频锁模掺Tm 光纤激光器基础问题的研究，中国博士后科学基金面上项目，2016.11−2018.05，主持

基于石墨烯光纤四波混频波长转换的研究，中央高校基础创新科研基金，2011.07−2013.09，主持

代表作：

[1]. Y. Tao, F. Wang, W. Shao, K. Chen, L. Gan, W. Yu, H. Lin, Q. Lu, C. Yu*, and H. Cheng*, “Large mode-field area element hybridized glass fibers for gigahertz ultrafast lasers”, Optics Express, 31(19), 30562−30569 (2023). (SCI)

[2]. H. Cheng*, K. Chen, Y. Tao, and W. Shao, “Dissipative solitons in centimeter-scale fiber lasers”, Journal of Lightwave Technology, DOI: 10.1109/JLT.2023.3292846 (2023). (SCI)

[3]. K. Chen, L. Gan, Y. Tao, W. Shao, W. Yu, H. Lin, Z. Cai, and H. Cheng*, “Environmental stable, spectral-shape-controllable, GHz femtosecond Yb-doped fiber laser”, Chinese Optics Letters, 21(6), 061601, (2023). (SCI)

[4]. H. Cheng*, X. Huang, M. Jiang, J. Yang, L. Lin, T. Li, Z. Cai, and S. Zhou*, “A 1625 nm Q-switched all-fiber laser”, Advanced Photonics Research, 3(3), 2100320, (2022). (SCI)

[5]. X. Huang, H. Cheng*, W. Luo, W. Zhang, M. Jiang, C. Yang, T. Yu, Z. Cai, Z. Xu, X. Shu, Z. Yang, J. Qiu, and S. Zhou*, “Er-Activated hybridized glass fiber for laser and sensor in the extended wavebands”, Advanced Optical Materials, 9(24), 2101394, 2021. (SCI)

[6]. H. Cheng*, W. Lin, Y. Zhang, M. Jiang, W. Luo, “Numerical insights into the pulse instability in a GHz repetition-rate thulium-doped fiber laser”, Journal of Lightwave Technology, 39(5), 1464−1470 (2021). (SCI)

[7]. T. Qiao†, H. Cheng†, X. Wen, W. Wang, W. Lin, Y. Zhou, Y. Guo, Y. Liu, and Z. Yang*, “High-power 2 GHz fs pulsed all-fiber amplified laser system at 2.0 µm”, Optics Letters, 44(24), 6001−6004 (2019). (SCI)

[8]. W. Wang, W. Lin, H. Cheng*, Y. Zhou, T. Qiao, Y. Liu, P. Ma, S. Zhou, and Z. Yang*, “Gain-guided soliton: Scaling repetition rate of passively modelocked Yb-doped fiber lasers to 12.5 GHz”, Optics Express, 27(8), 10438−10448 (2019). (SCI)

[9]. Y. Zhou, W. Lin, H. Cheng*, W. Wang, T. Qiao, Q. Qian, S. Xu, and Z. Yang*, “Composite filtering effect in a SESAM mode-locked fiber laser with a 3.2-GHz fundamental repetition rate: Switchable states from single soliton to pulse bunch”, Optics Express, 26(8), 10842−10857 (2018). (SCI)

[10]. H. Cheng*, W. Wang, Y. Zhou, T. Qiao, W. Lin, Y. Guo, S. Xu, and Z. Yang*, “High-repetition-rate ultrafast fiber lasers”, Optics Express, 26(13), 16411−16421 (2018). (SCI)

[11]. H. Cheng*, W. Lin, Z. Luo, and Z. Yang, “Passively mode-locked Tm³⁺-doped fiber laser with gigahertz fundamental repetition rate,” IEEE Journal of Selected Topics in Quantum Electronics, 24(3), 1100106 (2018). (SCI)

[12]. H. Cheng*, W. Wang, Y. Zhou, T. Qiao, W. Lin, S. Xu, and Z. Yang*, “5 GHz fundamental repetition rate, wavelength tunable, all-fiber passively mode-locked Yb-fiber laser”, Optics Express, 25(22), 27646−27651 (2017). (SCI)

[13]. H. Cheng*, Y. Zhou, A. E. Mironov, W. Wang, T. Qiao, W. Lin, Q. Qian, S. Xu, Z. Yang*, and J. G. Eden “Mode suppression of 53 dB and pulse repetition rates of 2.87 and 36.4 GHz in a compact, mode-locked fiber laser comprising coupled Fabry-Perot cavities of low finesse (F=2),”, Optics Express, 25(20), 24400−24409 (2017). (SCI)

[14]. H. Cheng*, W. Wang, Y. Zhou, T. Qiao, W. Lin, S. Xu, and Z. Yang*, “Investigation of rectangular shaped wave packet dynamics in a high-repetition-rate ultrafast fiber laser”, Optics Express, 25(17), 20125−20132 (2017). (SCI)

[15]. H. Cheng, W. Lin, T. Qiao, S. Xu, and Z. Yang*, “Theoretical and experimental analysis of instability of continuous wave mode locking: Towards high fundamental repetition rate in Tm³⁺-doped fiber lasers”, Optics Express, 24(26), 29882−29895 (2016). (SCI)

[16]. H. Cheng*, A. E. Mironov, J. H. Ni, H. J. Yang, W. W. Chen, Z. Dai, P. D. Dragic, J. Dong, S. –J. Park, and J. G. Eden, “Coupling quantum dots to optical fiber: Low pump threshold laser in the red with a near top hat beam profile,” Applied Physics Letters, 106(8), 081106 (2015). (SCI)

[17]. H. Cheng, Z. Luo*, Y. Huang, C. Liu, J. Dong, Z. Cai, and H. Xu, “Low-pump-threshold supercontinuum generation and optimization in PCF-intracavity-excited Q-switched fiber lasers,” Optics Communications, 321, 145−149 (2014). (SCI)

[18]. H. Cheng, Z. Luo*, C. Ye, Y. Huang, C. Liu, “Numerical modeling of mid-infrared fiber optical parametric oscillator based on the degenerated FWM of tellurite photonic crystal fiber,” Applied Optics, 52(3), 525−529 (2013). (SCI)

[19]. H. Cheng, Z. Luo, C. Ye*, C. Liu, Z. Liu “Graphene-based erbium-doped fiber soliton laser with passive mode locking and tunable harmonic orders,” Journal of Optoelectronics · Laser, 23(6), 1035−1038 (2012). (EI)