[1] [1] Nilsson O． Fundamental limits and possibilities for the future telecommunication[J]． IEEE Communications Magazine, 2001, 39(5): 164-167．

[2] [2] Chan V W S． Optical space communications[J]． IEEE J Quantum Electron, 2002, 6(6): 959-975．

[3] [3] He Aga. Research on the contact interface temperature field of optical-mechanical systems space laser communication terminal[D]. Harbin: Haerbin Institute of Technology, 2008. (in Chinese)

[4] [4] Li Xiaofeng． Finite element analysis of mirror thermal distortion within the sun shadow in space-to-ground laser communication links[J]． Journal of Optoelectronics·Laser, 2006, 17(2): 183-186. (in Chinese)

[5] [5] Li Xiaofeng, Wang Bo, Hu Yu． Influence of mirror thermal distortion in thermosphere to space-to-groand laser communication links[J]． Journal of Astronautics, 2005, 26(5): 581-585. (in Chinese)

[6] [6] Song Yiwei, Yu Siyuan, Tan Liying, et al. The effects of temperature distribution in space on the figure of reflectors[J]. Journal of Astronautics, 2010, 31 (3): 868-874. (in Chinese)

[7] [7] Tan Liying, Song Yiwei, Ma Jing, et al. Effects of temperature distribution on performance of SiC reflectors in periscopic laser communication terminals[J]． High Power Laser and Particie Beams, 2010, 22(11): 2545-2550. (in Chinese)

[8] [8] Meng Henghui, Geng Liyin, Li Guoqiang. Thermal control design and experiment for laser communication equipment[J]. Infrared and Laser Engineering, 2014, 43(7): 2295-2299.(in Chinese)