[1] A BELOSLUDTSEV, A MELNINKAITIS, G ABROMAVIČIUS. Significant enhancement in laser damage resistance of YAG crystal surface by plasma etching. Optics Letters, 48, 2226-2228(2023).

[2] Kaixin YUAN, Jin ZHUO, Qinghua ZHANG et al. Study on the spectral and laser damage resistance of CO2 laser modified sol-gel SiO2 thin films. Spectroscopy and Spectral Analysis, 43, 1752-1759(2023).

[3] L J ZHANG, X L JIANG, J CHEN et al. Effect of laser conditioning on surface modification and laser damage resistance of SiO2 antireflection film. Crystals, 13, 477-487(2023).

[4] Xiquan CHEN, Xiaotao ZU, Wanguo ZHENG et al. Experimental research of laser-induced damage mechanism of the sol-gel SiO2 and ibsd SiO2 thin films. Acta Physica Sinica, 55, 1201-1206(2006).

[5] Bin SHEN, Huai XIONG, Xu ZHANG et al. Porous silica antireflective film at ultraviolet laser wavelength (266 nm). Acta Optica Sinica, 40, 2216001(2020).

[6] Ming MA. Study on laser damage and high temperature resistance of sol-gel thin films(2018).

[7] Jiajia LI, Wei WANG, Yihan LIU et al. Technical research on preparation of TiO2 films by sol-gel method. China Ceramic Industry, 30, 9-13(2023).

[8] Hongliang RUAN, Zeyun RUAN, Jingui CHEN et al. Preparation and properties of self-cleaning SiO2/TiO2 antireflection coating. New Chemical Materials, 51, 106-109(2023).

[9] Jintao WANG, Yuhong QI, Bo WANG et al. Preparation and modification of SiO2 antireflection film. Shanxi Chemical Industry, 41, 9-11(2021).

[10] A MOHAMMED, G T ELHACHMI, T H BEN et al. Improved photocatalytic activity under the sunlight of high transparent hydrophilic Bi-doped TiO2 thin-films. Journal of Photochemistry & Photobiology, A: Chemistry, 443, 114818(2023).

[11] Zhi TONG, Lei WANG, Lu FAN et al. Effect of polyethylene glycol 2000 content on the properties of TiO2 membrane. Materials Science and Engineering of Powder Metallurgy, 24, 52-57(2019).

[12] Qintian GU, Bowen JI, Guixiang CHENG et al. Study on nano-TiO2 modified acrylic antireflection film. New Chemical Materials, 51, 65-68(2023).

[13] Jingxuan QU, Hongbao JIA, Dong WEI et al. Preparation and optical characterization of ordered mesoporous SiO2 antireflective film with humidity-resistance. Journal of University of Science and Technology Liaoning, 46, 153-160(2023).

[14] O DIMITROV, I STAMBOLOVA, S VASSILEV et al. Morphological features and optical properties of nanosized ZrO2 films prepared by sol-gel spin coating. Journal of Physics: Conference Series, 1492, 012024(2020).

[15] Liyuan ZHANG, Jia YOU, Yajie ZHONG et al. Effect of CTAB on structure and properties of mesoporous and layered TiO2 prepared by inorganic precipitation-peptization method. Materials Reports, 34, 24014-24018(2020).

[16] Xiaohong DENG, Junhong SU. Influence of different wavelengths on damage threshold of dielectric films. Optics & Optoelectronic Technology, 18, 96-105(2020).

[17] C MILLÁN, C SANTONJA, M DOMINGO et al. An experimental test for effective medium approximations (EMAs). Astronomy & Astrophysics, 628, A63-1-5(2019).

[18] J TAUC, A MENTH. States in the gap. Joutnal of Non Crystalline Solids, 10, 569-585(1972).

[19] Xiangming FANG, Xiang LI, Jie JIA et al. Fabrication and properties of ultraviolet detector based on Ag-modified TiO2 nanotubes. Acta Photonica Sinica, 48, 196-202(2019).

[20] Anchen WANG, Zhongmei HUANG, Weiqi HUANG et al. Influence of silicon oxide layer thickness on electronic state structure and optical properties of Si/SiO2 interface. Acta Photonica Sinica, 52, 228-239(2023).

[21] Junqi XU, Junhong SU, Liangyi HANG et al. Influence of deposition rate on the optical bandgap and laser damage properties of H4 films. Journal of Optoelectronics·Laser, 27, 1054-1059(2016).

[22] Yuquan GU, Kun PENG, Shuai YUAN et al. Effect of PEG on the optical properties and stability of SiO2 antireflective coatings. Jiangxi Chemical Industry, 69-73(2013).

[23] Wenhui ZHANG, Jianping HU, Jianguo CHEN et al. Uncertainty analysis of damage threshold measurement of optical elements induced by high power laser. High Power Laser and Particle Beams, 17, 528-532(2005).

[24] Xiaohong DENG. Study on the influence of 1 064 nm/532 nm lasers on the damage threshold of thin films(2022).

[25] K YOSHIDA, T YABE, H YOSHIDA et al. Mechanism of damage formation in antireflection coatings. Journal of Applied Physics, 60, 1545-1546(1986).