[1] Jiang Huilin, Tong Shoufeng. The Technologies and Systems of Space Laser Communication[M]. Beijing: National Defense Industry Press. 2010. 27-29.
[2] Gerardo G Ortiz, William H Farr, Virginio Sannibale. A Sub-Hertz, Low-Frequency Vibration Isolation Platform[Z/OL]. NASA′S Jet Propulsion Laboratory, Pasadera, California, Saturday, January 01 2011. http://www.techbriefs.com/Comporrent/content/article/9011.
[4] Liu Hongzhan, Ji Yuefeng, Liu Liren, et al.. Effect of aberration on performance of the bit error rate in an inter-satellite coherent optical communication receiving system[J]. Acta Optica Sinica, 2012, 32(1): 0106002.
[5] Olav Solgaard. Photonic Microsystems[M]. Huang Qing′an, Yu Hong, Lei Wei, et al. Transl.. Nanjing: Southeast University Press, 2011. 2-7.
[7] Ma Jing, Tan Liying, Jin Enpei, et al.. Analysis of influence of vibration to bit error rate for a system of space optical communication[J]. Journal of Astronautics, 1999, 20(3): 76-81.
[8] Morio Toyoshima, Yoshihisa Takayama, Hiroo Kunimori, et al.. In-orbit measurements of space craft microvibrations for satellite laser communication links[J]. Opt Eng, 2010, 49(8): 083604.
[10] Zhang Jian, Xu Lin, Wu Liying, et al.. Programmable beam steering based on liquid crystal optical phased array[J]. Acta Photonic Sinica, 2008, 37(8): 1497-1052.
[11] Yu Di. Simulationon Research on Adaptive Wavefront Correction System Based on Liquid Crystal Microarray[D]. Wuhan: Huazhong University of Science and Technology, 2008.
[12] Lane R G, Tallon M. Wave-front reconstruction using a Shack-Hartmann sensor[J]. Appl Opt, 1992, 31(32): 6902-6908.
[13] Ni Xiaolong, He Jingyi, Kong Yue, et al.. New Method to Build a Satellite Vibration Simulation Platform with Six Degrees of Freedom[R]. Changchun, 2012.