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[2] [2] Han Kexu. Research on the damage mechanism of thin film elements by continuous laser[D]. Changchun: Changchun University of Science Technology, 2023

[3] [3] Ling Xiulan. Laser induced damage of optical thin films in vacuum environments[M]. Beijing: Beijing Institute of Technology Press, 2018

[4] Ling Xiulan, Wang Gao, Liu Xiaofeng. Investigation of the intrinsic damage mechanisms for optical thin film in vacuum environments[J]. Laser & Optoelectronics Progress, 52, 053101(2015).

[5] Xu Bin, Li Bincheng, Gao Chunming. Performance degradation of low-loss highly-reflective mirrors under vacuum environment[J]. Laser Technology, 44, 768-772(2020).

[6] [6] Chen Xin. Laser damage of optical thin films induced by ganic contamination defect coupling[D]. Taiyuan: Nth University of China, 2023

[7] Chen Xin, Ling Xiulan, Liu Ji et al. Light field intensification in optical films induced by intercoupling of defects and organic contamination[J]. Micromachines, 13, 387(2022).

[8] Wu Jinhui, Ling Xiulan, Liu Ji. Analyses of light field enhancement damage induced by defects in optical thin films[J]. Infrared and Laser Engineering, 50, 20210357(2021).

[9] Liu Xiaofeng, Li Xiao, Zhao Yuan'an. Damage characteristic improvement of high reflectors by SiO₂ overlayer[J]. High Power Laser and Particle Beams, 22, 2860-2864(2010).

[10] Ling Xiulan, Chen Xin, Liu Xiaofeng. Revisiting defect-induced light field enhancement in optical thin films[J]. Micromachines, 13, 911(2022).

[11] Cheng Xinbin, Jiao Hongfei, Zhang Jinlong. Research on damage mechanism and application of nanosecond laser coatings[J]. Optics and Precision Engineering, 30, 2568-2590(2022).

[12] Su Junhong, Xu Junqi, Wang Guixia. Survey of damage identification methods for optical film elements induced by pulsed lasers[J]. Optics & Optoelectronic Technology, 21, 1-12(2023).

[13] Ling Xiulan, Liu Shenghu, Liu Xiaofeng. Different material modifications in laser-induced damage of optical films in air and vacuum environments[J]. Thin Solid Films, 703, 137974(2020).

[14] Diaz R, Chambonneau M, Grua P et al. Influence of vacuum on nanosecond laser-induced surface damage morphology in fused silica at 1064 nm[J]. Applied Surface Science, 362, 290-296(2016).

[15] [15] Deng Xiaohong. Study on the influence of 1064nm532nm laser on the damage threshold of thin films[D]. Xi''an: Xi''an Technological University, 2022

[16] Ling Xiulan, Liu Shenghu. Laser-induced thermal damage simulations of optical coatings due to intercoupling of defect and organic contamination[J]. IEEE Photonics Journal, 10, 6100707(2018).

[17] Zhang Luwei, Jia Xiaodong, Wang Yunzhe et al. Effect of femtosecond laser polarization on the damage threshold of Ta₂O₅/SiO₂ film[J]. Applied Sciences, 12, 1494(2022).

[18] Wu Yuling, Xiang Xia, Yu Jingxia et al. Review: research progress on nanosecond laser irradiation damage of optical films[J]. Nuclear Analysis, 1, 100045(2022).

[19] Liu King, Miskevich A A, Loiko V A et al. Interference effects induced by electrodes and their influences on the distribution of light field in perovskite absorber and current matching of perovskite/silicon tandem solar cell[J]. Solar Energy, 252, 252-259(2023).