[1] Guo Shaowen, Wang Wuyi, Zhang Guangyu, et al.Lightweight mirror technology for space optical systems[J].Optical Instruments, 2005, 27(4): 78-82. (in Chinese)
[2] Guo Xiqing, Wang Yueyong. Analysis of structural forms of lightweight hole for heavy-caliber mirror[J]. Optics and Precision Engineering, 2000, 8(6): 518-521. (in Chinese)
[4] Miroshnikov Michael M. Mirrors for optical telescopes[J] Optical Engineering, 1992, 31(4): 701-710.
[5] Gong Dun. The thermal effect on image quality of the remote sensor optical system[D]. Changchun: Changchun Institute of Optics, Fine Mechanics and Physics, 2010. (in Chinese)
[6] Zhang Jianhan, Fang Gang, Zhang Yumin. Study development of lightweight technology on borne mirror[J]. Opt Instruments, 2009, 31(3): 84-88. (in Chinese)
[7] Wu Qingwen. Light-weight technology and its application of primary mirror in space camera[J]. Optics and Precision Engineering, 1997, 5(6): 69-80. (in Chinese)
[8] Friedman E. Photonics Rules of Thumb [M]. New York: McGraw Hill, 2003.
[9] Parks R E. Engineering with lightweight mirrors [C]// Proceedings of SPIE, 1990, 1236: 735-743.
[10] Anderson D. Gravity deflections of lightweighted mirrors[C]//Proceedings of SPIE, 1982, 332: 424-435.
[11] Yu Tianye, Jia Jianjun. Light weight design of large-diameter mirror[J]. Infrared, 2007, 28(8): 6-10. (in Chinese)
[12] Wu Qingwen, Yang Hongbo, Yang Jinsong, et al. Design and analysis for primary mirror and its support of space camera[J]. Optical Technique, 2004, 30(2): 152-156. (in Chinese)
[14] Shao Jun. Investigation on supporting structure of special reflector[J]. Infrared, 2006, 27(4): 36-41. (in Chinese)
[15] Luo Tingyun, Zhang Fengqin, Fan Bin. Design and analysis of side support for large aspect ratio mirror[J]. Spacecraft Recovery & Remote Sensing, 2013, 34(4): 66-70. (in Chinese)
[16] Friedman E. Photonics Rules of Thumb[M]. New York: McGraw Hill, 2003.