[1] [1] Fang Chu. Design research on fast steering mirr system used in beam steering control devices [D]. Changchun: Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences, 2017. (in Chinese)

[2] Loney G C. Design of a small-aperture steering mirror for high bandwidth acquisition and tracking[J]. Optical Engineering, 29, 1360-1365(1990).

[3] Algrain M C. High-bandwidth attitude jitter determination for pointing and tracking systems[J]. Optical Engineering, 36, 2092-2110(1997).

[4] [4] Reynold W C, Rid H V. Fast steering mirrs in optical control systems[C]Proc SPIE, 1990, 1303: 245251.

[5] Raj A A B, Selvi J A V, Kumar D, et al. Design of cognitive decision making controller for autonomous online adaptive beam steering in free space optical communication system[J]. Wireless Personal Communications, 84, 765-799(2015).

[6] [6] Sweeney M N, Erdelyi E, Ketabchi M, et al. Design considerations f optical pointing scanning mechanisms[C]Proc SPIE, 2003, 5176: 135146.

[7] Zhou Ziyun, Gao Yunguo, Shao Shuai, et al. Design of fast steering mirror using flexible hinge[J]. Opt & Precision Eng, 22, 1548-1554(2014).

[8] [8] Tanzillo J N, Dunbar C B, Lee S. Development of a lasercom testbed f the pointing, acquisition, tracking subsystem of satellitetosatellite laser communications link[C]Proc SPIE, 2008, 6877: 687704.

[9] [9] Cho M K, Cred A, Dribusch C, et al. Development of a fast steering secondary mirr prototype f the Giant Magellan Telescope[C] Proc SPIE, 2012, 8444: 844420.

[10] [10] Watson J, Avicola K, Payne A, et al. Fast steering mirr systems f the UAVLIS program at LLNL[C]Proc SPIE, 2012, 2375: 96102.

[11] Yuan Li, Zhang Xiaohui. Surface shape measurement of large flat mirrors using a scanning pentaprism method[J]. Chinese Optics, 12, 920-931(2019).

[12] Chen Haiping, Xiong Zhao, Cao Tingfen, et al. Research on surface measure device for process of large aperture mirror assembly[J]. Acta Optica Sinica, 36, 0212002(2016).

[13] Han Z, Yin L, Chen L, et al. Absolute flatness testing of skip-flat interferometry by matrix analysis in polar coordinates[J]. Applied Optics, 55, 2387(2016).

[14] [14] Yuan Li. Measurements of topography of a l.5 m flat mirr control of errs[D]. Changchun: Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences, 2018. (in Chinese)

[15] Wang Kai, Gao Xuepeng. Research on testing system of fast steering mirror[J]. Electro-Optic Technology Application, 32, 1-5(2017).

[16] Zhang Yu, Yang Zhongming, Liu Zhaojun, et al. Design of large aperture multi-spectra channel wavefront measurement system[J]. Infrared and Laser Engineering, 49, 20190559(2020).

[17] [17] Zhang Yu. Research on coaxial large aperture multispectra channel wavefront measurement system[D]. Qingdao: Shong University, 2020. (in Chinese)

[18] [18] Ma Tao. Research on infrared laser tracking launching system[D]. Changchun: Changchun Univesity of Science Technology, 2010. (in Chinese)

[19] [19] Jiang Kai. The study of offaxis catadioptic MWIR continuous zoom optical system[D]. Xi’an Institute of Optics & Precision Mechnics, Chinese Academy of Sciences, 2013. (in Chinese)

[20] [20] Gu Xixi. Research on design technology of offaxis reflective optical system with freefm surface[D]. Chengdu: The Institute of Optics Electronics, Chinese Academy of Sciences, 2020. (in Chinese)

[21] Jiang Kai, Zhou Sizhong, Wang Yanbin, et al. Design of large aperture off-axis catadioptric middle infrared continuous zoom system[J]. Infrared and Laser Engineering, 42, 2467-2471(2013).

[22] Miller J, Hatch M, Green K. Predicting performance of optical systems undergoing thermal/mechanical loadings using integrated thermal/structural/optical numerical methods[J]. Optical Engineering, 20, 166-174(1981).

[23] Guo Jiang, Zhu Lei, Zhao Ji, et al. Design and optimize of high tolerance support structurefor large aperture space mirror[J]. Opt & Precision Eng, 27, 1138-1147(2019).

[24] Han X, Zhang J, Gao T Y, et al. Research on thermal integrated optomechanical analysis method of transmissive infrared optical systems[J]. Infrared Technology, 40, 1136-1141(2018).

[25] Yue Baoyi, Liu Jun, Guo Jia, et al. Optical system design of folded/diffractive co-aperture infrared dual-band beam positioner[J]. Infrared and Laser Engineering, 48, 0418003(2019).

[26] Pan Yue, Xu Xiping, Qiao Yang. Optical-structural-thermal analysis of zoom infrared dual-band projection lens[J]. Acta Optica Sinica, 38, 0522001(2018).

[27] Zhang Haosu, Zhao Yan, Xu Dong. Infrared imaging model based on coordinate conversion[J]. Opto-Electronic Engineering, 35, 112-118(2008).

[28] Zhao Qi, Hu Mingyong, Li Mingjie, et al. Assembly technology of alt-az off-axis beam expanding optical system[J]. Journal of Applied Optics, 39, 563-569(2018).