Emailguochlei@mail.sysu.edu.cn

主要研究方向:星载窄线宽激光器

个人简介:

       男,1989年6月生,中共党员。主要从事窄线宽激光器、光纤放大器等方面的研究。攻读博士期间,搭建基于二氧化碳激光器的玻璃微腔加工平台,制备出品质因子超过10^8的回音壁模谐振腔,并将其用于产生布里渊激光、单频激光和克尔光频梳等。博后期间参与法国巴黎天文台汞原子光晶格钟的研制:完成汞钟回泵激光器、光晶格激光器、制冷激光器、二维磁光阱、主动磁控装置等的改进与升级;作为主要参与人,负责汞钟的运转和维护,完成汞钟稳定度和不确定的评估;通过欧洲境内的光纤时频链路,运转汞钟多次参与国际光钟比对等工作。加入天琴中心后,主要负责星载窄线宽激光器的研制工作。

主要经历:

    1.教育背景:

    2006.08-2010.06,延边大学物理系,本科

    2010.09-2013.06,福州大学光学专业,硕士研究生

    2013.09-2016.09,厦门大学电子工程系,博士研究生

    2016.01-2016.04,英国国家物理实验室时间与频率研究部,访问博士生

    2.职业经历:

    2016.12-2020.09,法国巴黎天文台时空基准系统实验室(SYRTE),研究员/博士后

    2020.11至今,中山大学物理与天文学院,副教授

代表性成果(论文、专利、专著等):

  1. Weitong Fan, Chunzhao Ma, Danqing Liu, Rong Zhu, Guobin Zhou, Xuezhen Gong, Shungao Zhou, Jie Xu, Wenhao Yuan, Changlei Guo*, and Hsien-Chi Yeh, “Dual-frequency fundamental-mode NPRO laser for low-noise microwave generation,” Optics Express, 31(8): 13402-13413, 2023.
  2. Changlei Guo, Valentin Cambier, James Calvert, Maxime Favier, Manuel Andia, Luigi de Sarlo, and Sébastien Bize, “Exploiting the two-dimensional magneto-optical trapping of 199Hg for a mercury optical lattice clock,” Physical Review A, 107(3): 033116, 2023.
  3. Changlei Guo, Maxime Favier, Nicolas Galland, et al, “Accurate laser frequency locking to optical frequency combs under low-signal-to-noise-ratio conditions,” Review of Scientific Instruments, 91(3): 033202, 2020.
  4. Shuisen Jiang, Changlei Guo*, Hongyan Fu, et al, “Mid-infrared Raman lasers and Kerr-frequency combs from an all-silica narrow-linewidth microresonator/fiber laser system,” Optics Express, 28(25): 38304-38316, 2020.
  5. Changlei Guo, Kaijun Che, Huiying Xu, et al, “Generation of optical frequency combs in a fiber-ring/microresonator laser system,” Optics Letters, 41(12): 2576-2579, 2016.
  6. Changlei Guo, Kaijun Che, Zhiping Cai, et al, “Ultralow-threshold cascaded Brillouin microlaser for tunable microwave generation,” Optics Letters, 40(21): 4971-4974, 2015.
  7. Changlei Guo, Kaijun Che, Pan Zhang, et al, “Low-threshold stimulated Brillouin scattering in high-Q whispering gallery mode tellurite microspheres,” Optics Express, 23(25): 32261-32266, 2015.
  8. Changlei Guo, Kaijun Che, Guoqiang Gu, et al, “Tailoring the plasmonic whispering gallery modes of a metal-coated resonator for potential application as a refractometric sensor,” Applied Optics, 54(6): 1250-1256, 2015.