[1] Wang Dong, Wang Fei, Bai Bing, . Experiment study on the jamming and damage thresholds of polycrystalline silicon detector irradiated by 10.6 μm pulsed CO₂ laser[J]. Laser & Infrared, 45, 1084-1087(2015).

[2] Li Xingliang, Niu Chunhui, Ma Muyan, . Finite element simulation of damage characteristics of CCD detectors under single-laser-pulse irradiation[J]. Laser Technology, 40, 730-733(2016).

[3] Malik R, Mills B, Price J H V, et al. Determination of the mid-IR femtosecond surface-damage threshold of germanium[J]. Applied Physics A, 113, 127-133(2013).

[4] Liu Yang, Liu Lisheng, Tang Wei, et al. Experimental study on the damage of optical materials by out of band composite laser[J]. Applied Sciences, 10, 3578(2020).

[5] Lee H. Picosecond mid-IR laser induced surface damage on gallium phosphate (GaP) and calcium fluoride(CaF₂)[J]. Journal of Mechanical Science and Technology, 21, 1077-1082(2007).

[6] Wang X, Zhu D H, Shen Z H, et al. Surface damage morphology investigations of silicon under millisecond laser irradiation[J]. Applied Surface Science, 257, 1583-1588(2010).

[7] Stuart B C, Feit M D, Herman S, et al. Nanosecond-to-femtosecond laser-induced breakdown in dielectrics[J]. Physical Review B, 53, 1749-1761(1996).

[8] Xu Jiao, Chen Lixia, You Xinghai, . Thermal stress damage of thin-film components induced by surface impurities[J]. Acta Optica Sinica, 37, 0614003(2017).

[9] Peng Yufeng, Sheng Zhaoxia, Zhang Hu, . Theoretical analyses of temperature distributions of solid materials irradiated by high power laser[J]. High Power Laser and Particle Beams, 16, 1225-1228(2004).

[10] Duan Xiaofeng, Niu Yanxiong, Zhang Chu. Calculation of laser irradiation effect and analysis of laser-induced damage threshold in semiconductor[J]. Acta Optica Sinica, 24, 1057-1061(2004).

[11] Carr C W, Bude J D, DeMange P. Laser-supported solid-state absorption fronts in silica[J]. Physical Review B, 82, 184304(2010).

[12] Shen N, Bude J D, Carr C W. Model laser damage precursors for high quality optical materials[J]. Optics Express, 22, 3393-3404(2014).

[13] [13] Ristau D. Laserinduced damage in optical materials[M]. Boca Raton: CRC Press, 2014: 2730.

[14] Bonneau F, Combis P, Rullier J L, et al. Study of UV laser interaction with gold nanoparticles embedded in silica[J]. Applied Physics B, 75, 803-815(2002).

[15] Stevens-Kalceff M A, Stesmans A, Wong J. Defects induced in fused silica by high fluence ultraviolet laser pulses at 355 nm[J]. Applied Physics Letters, 80, 758-760(2002).

[16] [16] Bude J, Miller P E, Shen N, et al. Silica laser damage mechanisms, precurss their mitigation[C]Proceedings of SPIE 9237, LaserInduced Damage in Optical Materials. 2014: 92370S.

[17] [17] Xiang Jiansheng. Research on bubble measurement technology based on Mie light scattering they[D]. Xi''an: University of Chinese Academy of Sciences, 2007: 1011).

[18] [18] Van De Hulst H C. Light scattering by small particles[M]. New Yk: Dover Publications, 1981: 4057.

[19] Wang M Y, Ge D B, Xu J, et al. FDTD study on back scattering of conducting sphere coated with double negatibe metamaterials[J]. International Journal of Infrared and Millimeter Waves, 28, 689(2007).

[20] Endo R K, Fujihara Y, Susa M. Calculation of the density and heat capacity of silicon by molecular dynamics simulation[J]. High Temperatures-High Pressures, 35/36, 505-511(2003).

[21] Sin E H, Ong C K, Tan H S. Temperature dependence of Interband optical absorption of silicon at 1152, 1064, 750, and 694 nm[J]. Physica Status Solidi (A), 85, 199-204(1984).