[1] Zhou Bingkun. Principles of Laser [M]. Chengdu: National Defence Industry Press, 1987. 129-133.
[2] Zhang Feng. Combined type polishing of silicon modification layer on silicon carbide mirror for space camera [J]. Chinese J Laser, 2013, 40(7): 0716001.
[4] F M Anthony, A K Hopkins. Actively cooled silicon mirrors [C]. SPIE, 1981, 291: 196-203.
[5] G L Herrit, H E Reedy. Advanced figure of berit evaluation for CO2 laser optics using finite element analysis [C]. SPIE, 1989, 1047: 33-42.
[8] Han Yuanyuan, Zhang Yumin, Han Jiecai. Current status of research on silicon carbide mirror technology [J]. Material Bulletin, 2005, 19(4): 5-8.
[10] Chen Jiayuan, Yu Wenfeng, Cheng Zuhai. Numerical study on outside cooling mirror with heatpipe [J]. High Power Laser and Particle Beams, 2008, 20(5): 710-714.
[12] Cheng Zuhai, Zhang Yaoning. A research on thin multilayer mirrors with circular coolant channel [J]. High Power Laser and Particle Beams, 1997, 9(3): 418-422.
[13] V V Apollonov, A I Barchukov, V I Borodin, et al.. Possibility of using structures with open pores in construction of cooled laser mirrors [J]. Sov J Quantum Electron, 1978, 8(5): 672-673.
[14] V V Apollonov, P I Bystrov, Y A Broval′skii, et al.. Feasibility of using liquid-metal heat carriers to cool power optics components made of porous structures [J]. Quantum Electroncs, 1981, 11( 6): 796-798.
[15] W W Yuen, R V Fleishman. A parametric study of mesh-enhanced forced convection heat transfer for the cooling of high power density mirrors [C]. SPIE, 1989, 1047: 43-57.
[17] J Bluege. Solid-to-liquid phase change cooled mirror arrangement: US, 5076348 [P]. 1991-12-31.
[18] Li Bin, Jiao Luguang, Liu Liang, et al.. Numerical simulation of water jet cooled SIC mirror [J]. Chinese J Lasers, 2011, 38(2): 0202009.
[20] Lu Yuling. Phase Change Cooled Unstable Resonator with Coaxial Output [D]. Wuhan: Huazhong University of Science and Technology, 2005.
[23] Yu Liangying, Zhu Haihong, Cheng Zuhai, et al.. Analysis of the effects of mirror structure on mirror surface thermo-deformation using finite methods [J]. Journal of Huazhong University of Science and Technology (Nature Science Edition), 2007, 35(6): 108-110.