1983年4月出生，正高级工程师、硕士生导师。2007年毕业于武汉大学电子信息学院，获工学学士学位；2013年于中国科学院光电技术研究所获光学工程博士学位，期间2011年1月—2013年1月获得中欧联合培养博士项目资助，在德国马普天文研究所访学研究。2013年7月入职中国科学院上海天文台工作至今，2019年入选中国科学院青年创新促进会会员。

长期从事高精度天文仪器科学应用开发、天文光干涉技术、空间目标光谱探测技术、天文载荷仿真模拟、自适应光学等方面的研究。

已发表论文40余篇，获得多项国家发明专利，曾获中国光学工程学会技术发明奖二等奖。

 高精度天文仪器科学应用开发、天文光干涉技术、空间目标光谱探测技术、天文载荷仿真模拟、自适应光学

(2019年入会)

1. Zhao-Jun Yan, Huan-Yuan Shan, Zhen-Ya Zheng, et al. Mock Observations for the CSST Mission: Multi-Channel Imager--Instrument Simulation. RAA，2026，26，024006

2. Zhao-Jun Yan, Jun Yin, Lei Hao, et al. Mock Observations for the CSST Mission: Integral Field Spectrograph--Instrument Simulation. RAA，2026，26，024008

3. Yi-Ming Zhu, Gang Zhao, Jiang-Pei Dou, Zhong-Hua Lv, Yi-Li Chen, Bo Ma, Zhao-Jun Yan, Jing Tang, Ran Li. Mock Observations for the CSST Mission: CPI-C -- Targets for High Contrast Imaging. RAA，2026，26，024011

4. Gang Zhao, Yiming Zhu, Jiangpei Dou, Yili Chen, Zhonghua Lv, Bingli Niu, Zhaojun Yan, Bo Ma, Ran Li. Mock Observations for the CSST Mission: CPI-C -- Instrument Simulation. RAA，2026，26，024010

5. Cheng-Liang Wei, Guo-Liang Li, Yue-Dong Fang, Xin Zhang, Yu Luo, Hao Tian, De-Zi Liu, Xian-Ming Meng, Zhang Ban, Xiao-Bo Li, Zun Luo, Jing-Tian Xian, Wei Wang, Xi-Yan Peng, Nan Li, Ran Li, Li Shao, Tian-Meng Zhang, Jing Tang, Yang Chen, Zhao-Xiang Qi, Zi-Huang Cao, Huan- Yuan Shan, Lin Nie, Lei Wang, Zizhao He, Rui-Biao Luo, Quan-Yu Liu, Zhao-Jun Yan. Mock Observations for the CSST Mission: Main Surveys--An Overview of Framework and Simulation Suite. RAA，2026，26，024001

6. Yushan Xie, Xiaokai Chen, Shuai Feng, Zhaojun Yan, et al. Mock Observations for the CSST Mission: Multi-Channel Imager--The Cluster Field. RAA，2026，26，024007

7. Shuai Feng, Shiyin Shen, Wei Chen, Zhaojun Yan, et al. Mock Observations for the CSST Mission: Integral Field Spectrograph--GEHONG: A Package for Generating Ideal Datacubes. RAA，2026，26，024009

8. Yang, Huizhen, Yongqiang Miao, Peng Chen, Zhiguang Zhang, and Zhaojun Yan*. "Experimental Verification of Model-Based Wavefront Sensorless Adaptive Optics System for Large Aberrations" Micromachines, 2026 17(58), https://doi.org/10.3390/mi17010058

9. Zhaojun Yan, Huizhen Yang, Zhiguang Zhang, Chun Xu, Chen Sun, and Xinrong Wen, "Closed-loop cophasing method for segmented mirrors based on slope signals derived from dispersed interferograms," Opt. Lett. 50, 5746-5749 (2025)

10. Zhaojun Yan, Huizhen Yang, Xinyang Chen, Lixin Zheng, Nenghong Zhu. Cophasing calibration for a segmented telescope based on two-dimensional dispersed interferograms, Optics and Lasers in Engineering, Vol.186, 2025, 108785.

11. Yang, Huizhen, Lingzhe Tang, Zhaojun Yan*, Peng Chen, Wenjie Yang, Xianshuo Li, and Yongqi Ge. 2025. Wavefront Correction for Extended Sources Imaging Based on a 97-Element MEMS Deformable Mirror. Micromachines 2025, 16(1), 50.

12. M Wan, L H Deng*, S G Zeng, Z J Yan, J L Xie, T T Xu, Y T Yu, Rotation signal on the full disc of the solar chromosphere, MNRAS 536, 871–878 (2025)

13. Deng Ying-ping, Jiang Cheng-zi, Chen Guo, Yan Zhao-jun. Discrimination of Stellar Contamination in Exoplanet Transmission Spectra with CSST/MCI. Chinese Astronomy and Astrophysics 2025, 49(2):436-455.

14. Lei Wang, Huanyuan Shan, Lin Nie, Dezi Liu, Zhaojun Yan, Guoliang Li, Cheng Cheng, Yushan Xie, Han Qu, Wenwen Zheng, Xi Kang. How to coadd images: II. Anti-aliasing and PSF deconvolution. 2024 Res. Astron. Astrophys. 24 045009

15. Wenfeng Fang, Yong Yu, Xiyan Peng, Zhaojun Yan, et al. Evaluation of the astrometric capability of Multi-Channel Imager and simulated calculation of proper motion of M31. Frontiers in Astronomy and Space Sciences. Vol. 11 (2024). DOI: https://doi.org/10.3389/fspas.2024.1250571

16. Huizhen Yang, Xiangdong Zang, Peng Chen, Xingliu Hu, Yongqiang Miao, Zhaojun Yan *, and Zhiguang Zhang. An Efficient Method for Wavefront Aberration Correction Based on the RUN Optimizer. Photonics 2024, 11(1), 29. DOI: https://doi.org/10.3390/photonics11010029

17. Zhaojun Yan, HUIZHEN YANG, LIN CHEN, XIANGDONG ZANG, PENG CHEN, ZHIGUANG ZHANG. Pupil calibration for pyramid wavefront sensors based on a wavefront corrector, Optics Express, 2023, 31(26): 1-12

18. Yan, Zhaojun*, Arcidiacono, Carmelo, Herbst, Thomas. Plate scale variation detecting method for LINC-NIRVANA. Published in SPIE Proceedings Vol. 12070:10th International Symposium on Advanced Optical Manufacturing and Testing Technologies: Large Mirror and Telescopes

19. Zhaojun Yan*, Pengqian Yang. Extending wavefront sensing range of phase diversity. Proc. SPIE 11057, Modeling Aspects in Optical Metrology VII, 110570W (21 June 2019); doi: 10.1117/12.2525980

20. 颜召军*，郑立新，王超燕，等. 四棱锥传感器在空间光干涉望远镜共相中的应用，2018，光子学报，47（11）

21. 颜召军*, 陈欣扬, 郑立新,丁媛媛, 朱能鸿. 基于色散干涉图像的拼接望远镜共相零位标定方法研究. 物理学报, 2016, 65(19):199501

22. 颜召军*, 杨朋千. 层向多层共轭自适应光学系统的模拟. 红外与激光工程, 2016, 45(9):0918005

23. Zhaojun Yan*, Pengqian Yang. Multichannel optimal control algorithm for adaptive optics system. Optik 127 (2016) 7210–7217

24. 颜召军*, 杨朋千, 陈欣扬. 无调制四棱锥波前传感器的光瞳像标定方法. 光学学报, 2016, 36(6): 0601002

25. 颜召军*, 杨朋千. 星向多层共轭自适应光学大气湍流三维波前模式复原算法分析. 中国激光, 2015, 42(11): 1113002

26. 颜召军*, 陈欣扬, 杨朋千, 周丹, 郑立新, 朱能鸿. 基于光栅色散干涉条纹的菲佐光干涉望远镜共相检测方法研究. 物理学报, 2015, 64 (14): 149501

27. 颜召军, 李新阳, 饶长辉. 自适应光学闭环系统实时多路自适应控制算法.光学学报, 2013, 33(3):0301002

28. 颜召军, 李新阳, 饶长辉. 一种自适应光学闭环系统预测控制算法的仿真研究. 光学学报, 2011, 23(1):23~31

29. 颜召军, 李新阳. 基于神经网络的自适应光学系统变形镜控制电压预测方法. 光学学报, 2010, 30(4):911～916

30. Zhaojun Yan, Thomas M. Herbst, Pengqian Yang, et.al. Measurement of Non-common Path Static Aberrations in an Interferometric Camera by Phase Diversity. SPIE, 2012,Vol. 8417.

31. Yan Zhaojun, Li Xinyang, Rao Changhui. Prediction Control Algorithm for Close-loop Adaptive Optical System. The 6th IFAC Symposium on Mechatronic Systems. P276-284, Hangzhou, 2013, doi:10.3182/20130410-3-CN-2034.00068