[1] [1] Giuliano C R. Laser-induced damage to transparent dielectric materials[J]. Applied Physics Letters, 1964, 5(7): 137-139.

[2] [2] Hopper R W, Uhlmann D R. Mechanism of inclusion damage in laser glass[J]. Journal of Applied Physics, 1970, 41(10):4023-4037.

[3] [3] Gao Xiang, Qiu Rong, Zhou Guorui, et al. Effect of subsurface impurities of fused silica on laser induced damage probability[J]. Infrared and Laser Engineering, 2017, 46(4):0106002. (in Chinese)

[4] [4] Raman R N, Demos S G, Shen N, et al. Damage on fused silica optics caused by laser ablation of surface-bound microparticles[J]. Optics Express, 2016, 24(3): 2634-2647.

[5] [5] Duchateau G, Dyan A. Coupling statistics and heat transfer to study laser-induced crystal damage by nanosecond pulses[J]. Optics Express, 2007, 15(8): 4557-4576.

[6] [6] Wei Yaowei, Liu Zhichoa, Chen Songlin. Optical characteristics of TiO2/Al2O3 thin films and their atomic layer depositions[J]. Chinese Optics, 2011, 4(2): 188-195. (in Chinese)

[7] [7] Li Wenzhi, Wei Chenghua, Gao Lihong, et al. Relationship between laser ablation threshold of graphite-SiO2 and scattering light signal[J]. Chinese Optics, 2016, 9(6): 628-642. (in Chinese)

[8] [8] Zhao Yuan′an, Hu Guohang, Liu Xiaofeng, et al. Laser conditioning technology and its application[J]. Optics and Precision Engineering, 2016, 24(12): 2938-2947. (in Chinese)

[9] [9] Luo Yang, Hu Guohang, Zhao Yuan′an, et al. Improvement of laser damage resistance at surface of DKDP crystal by laser conditioning process[J]. Optics and Precision Engineering, 2017, 25(8): 1987-1994. (in Chinese)

[10] [10] Wang Fengrui, Li Qingzhi, Guo Decheng, et al. Laser pretreatment parameters optimization of KDP crystal[J]. Infrared and Laser Engineering, 2017, 46(3): 0321005. (in Chinese)

[11] [11] Miller R A, Borreli N F. Damage in glass induced by linear absorption of laser radiation[J]. Applied Optics, 1966, 6(1):164-165.

[12] [12] Kask N E, Radchenko V V, Fedorov G M, et al. Temperature dependence of the ability of optical glass to withstand 10-msec laser pulses[J]. Soviet Journal of Quantum Electronics, 1977, 7(2): 264-266.

[13] [13] Wang B, Qin Y, Ni X W, et al. Effect of defects on long-pulse laser-induced damage of two kinds of optical thin films[J]. Applied Optics, 2010, 49(29): 5537-5544.

[14] [14] Pan Y X, Wang B, Shen Z H, et al. Effect of inclusion matrix model on temperature and thermal stress fields of K9-glass damaged by long-pulse laser[J]. Optical Engineering, 2013, 52(4): 044302.

[15] [15] Natoli J Y, Gallais L, Akhouayri H, et al. Laser-induced damage of materials in bulk, thin-film, and liquid forms[J]. Applied Optics, 2002, 41(16): 3156-3166.

[16] [16] Liu Hongjie, Zhou Xingda, Huang Jin, et al. Comparison of damage between front and rear surfaces under nanosecond 355 nm laser irradiation on fused silica[J]. Acta Physica Sinica, 2011, 60(6): 065202. (in Chinese)

[17] [17] Qiu Rong, Wang Junbo, Ren Bo, et al. Growth of laser-induced damage in fused silica under nanosecond laser irradiation[J]. High Power Laser and Particle Beams, 2012, 24(5): 1057-1062. (in Chinese)

[18] [18] Bude J, Guss G, Matthews M, et al. The effect of lattice temperature on surface damage in fused silica optics[C]// Proceedings of SPIE, 2007, 6720: 672009.

[19] [19] Pan Y X, Lv X M, Zhang H C, et al. Millisecond laser machining of transparent materials assisted by a nanosecond laser with different delays[J]. Optics Letters, 2016, 41(2): 2807-2810.

[20] [20] Stegman R L, Schriempf J T, Hettche L R. Experimental studies of laser-supported absorption waves with 5-ms pulses of 10.6-μ radiation[J]. Journal of Applied Physics, 1973, 44(8): 3675-3681.

[21] [21] Pirri A N, Root R G, Wu P K S. Plasma energy transfer to metal surfaces irradiated by pulsed lasers[J]. AIAA Journal, 1977, 16(12): 1296-1304.