[1] M R Kasaai, V Kacham, F Theberge, et al. The interaction of femtosecond and nanosecond laser pulses with the surface of glass. J Non-Cryst Solids, 319, 129-135(2003).
[2] Hui Gong, Mingli Wang, Lei Cheng, et al. CW CO2 laser strengthening of fused silica surfaces. Chinese Journal of Lasers, 24, 255-258(1997).
[3] Feng Huang, Yanxiong Niu, Yuefeng Wang, et al. Calculation of thermal and mechanical effect induced by laser in optical window materials. Acta Optica Sinica, 26, 576-580(2006).
[4] K A Hamam, E D Gamal. Numerical analysis of breakdown dynamics dependence on pulse width in laser-induced damage in fused silica: Role of optical system. Results in Physics, 725-733(2018).
[5] Zhujie Wu, Yunxiang Pan, Jingyuan Zhao, et al. Research on laser-induced damage of K9 glass irradiated by millisecond laser. Infrared and Laser Engineering, 48, 0805005(2019).
[6] Guoying Feng, Qiuhui Zhang, Shouhuan Zhou, et al. Study on the morphology of laser induced damage in K9 glass by focused nanosecond pulse. Acta Physica Sinica, 57, 5558-5564(2008).
[7] Hongjie Liu, Fengrui Wang, Qing Luo, et al. Experimental comparison of damage performance induced by nanosecond 1 laser between K9 and fused silica optics. Acta Physica Sinica, 61, 076103(2012).
[8] Fu Luo, Chengwei Sun, Xiangwan Du. Stress relaxation damage in K9 glass plate irradiated by 1.06 m m CW laser. High Power Laser and Particle Beams, 13, 19-23(2001).
[9] Bin Wang, Yuan Qin, Xiaowu Ni, et al. Effect of defects on long-pulse laser-induced damage of two kinds of optical thin films. Appl Opt, 49, 5537-5544(2010).
[10] Yunxiang Pan, Xueming Lv, Hongchao Zhang, et al. Millisecond laser machining of transparent materials assisted by a nanosecond laser with different delays. Opt Lett, 41, 2807-2810(2016).
[11] Mingxin Zhang, Jinsong Nie, Ke Sun, et al. Numerical analysis on thermal function of single crystal silicon irradiated by combined laser. Infrared and Laser Engineering, 47, 1106011(2018).
[12] Xueming Lv, Yunxiang Pan, Zhichao Jia, et al. Surface damage induced by a combined millisecond and nanosecond laser. Appl Opt, 56, 5060-5067(2017).
[13] Boshi Yuan, Di Wang, Yuan Dong, et al. Experimental study of the morphological evolution of the millisecond–nanosecond combined-pulse laser ablation of aluminum alloy. Appl Opt, 57, 5743-5748(2018).
[14] Nton M A, Carr A V, Carr C W, et al. Laser damage growth in fused silica with simultaneous 351 nm 1053 nm irradiation [C]Proceedings of SPIE The International Society f Optical Engineering, 2008, 7132: 71321H.
[15] R A Negres, M A Norton, D A Cross, et al. Growth behavior of laser-induced damage on fused silica optics under UV, ns laser irradiation. Optics Express, 18, 19966-19976(2010).
[16] S Karimelahi, L Abolghasemi, P R Herman. Rapid micromachining of high aspect ratio holes in fused silica glass by high repetition rate picosecond laser. Appl Phys A, 114, 91-111(2014).
[17] Y Pan, B Wang, Z Shen, et al. Effect of inclusion matrix model on temperature and thermal stress fields of K9-glass damaged by long-pulse laser. Opt Eng, 52, 044302(2013).
[18] G Dai, Y B Chen, Z H Shen, et al. Analysis of laser induced thermal mechanical relationship of HfO2/SiO2 high reflective optical thin film at 1064 nm. Chinese Optics Letters, 7, 601-604(2009).
[19] B Wang, H Zhang, Y Qin, et al. Temperature field analysis of single layer TiO2 film components induced by long-pulse and short-pulse lasers. Appl Opt, 50, 3435-3441(2011).
[20] S C Wilks, W L Kruer. Absorption of ultrashort, ultra-Intense laser light by solids and overdense plasmas. IEEE J Quantum Electron, 33, 1954-1968(1997).
[21] Hughes T P, Bayfield J E. Plasmas laser light[J]. Physics Today, 1977, 30(4): 5456.
[22] H Hidai, S Matsusaka, A Chiba, et al. Heat accumulation in microdrilled glass from ultraviolet laser ablation. Appl Phys A, 120, 357-367(2015).
[23] Yunxiang Pan, Hongchao Zhang, Jun Chen, et al. Millisecond laser machining of transparent materials assisted by nanosecond laser. Optics Express, 23, 000765(2015).
[24] N E Kask, V Radchenko, G M Fedorov, et al. Temperature dependence of the ability of optical glass to withstand 10-msec laser pulses. Soviet Journal of Quantum Electronics, 7, 264(1977).