[1] John H. Cambpell, Patricia A. Hurst, Dwight D.Heggins. Laser induced damage and fracture in fused silica vacuum windows [C]. SPIE, 1996, 2966: 106~125
[2] Claude A. Klein. Figures of merit for high enegy laser window materias: thermals lensing and thermal stresses [C]. SPIE, 2007, 6403: 640308
[3] W. C. O′Neal, D. E. Campbell, S. S. Glaros. Experimental laser fusion devices and related vacuum problems [C]. The Seventh International Vacuum Congress and Third International Conference on Solid Surface, 1977, UCRL-79176
[4] M. F. Koldunov, A. A. Manekov. Pulse-width and pulse-shape dependencies of laser induced damage threshold to transparent optical materials [C]. SPIE, 1996, 2714: 718~730
[5] M. F. Koldunov, A. A. Manekov. Efficiency of various mechanisms of the laser damage in transparent solids [J]. Quantum Electron., 2002, 32(7): 623~628
[6] M. F. Koldunov, A. A. Manekov. Mechanical damage in transparent solids caused by laser pulses of different durations [J]. Quantum Electron., 2002, 32(4): 335~340
[7] M. F. Koldunov, A. A. Manenkov. Recent progress in theoretical studies of laser-induced damage (LID) in optical materials: fundamental properties of LID threshold in the wide pulsewidth range from microseconds to femtseconds [J]. SPIE, 1999, 3578: 212~225
[9] Li Yuhua, Ma Fajun, Dai Nengli et al.. Ultra-short pulsed laser-induced damage in inorganic silicon materials[J]. Chinese J. Lasers, 2007, 37(7): 1009~1013
[13] Li Hao, Geng Yongyou, Wu Yiqun. Progress on inorganic laser thermal lithography materials[J]. Laser & Optoelectronics Progress, 2011, 48(1): 011602