沈军, 王珏, 吴广明, 等. 化学法制备光学薄膜及其应用[J]. 原子能科学技术, 2002(5): 305–308. SHEN Jun, WANG Jue, WU Guangming, et al. Atomic Energy Sci Technol (in Chinese), 2002(5): 305–308. [2] 肖轶群, 谢志勇, 沈军, 等. 溶胶–凝胶工艺制备SiO2薄膜的结构控制和稳定性研究[J]. 强激光与粒子束, 2006, 18(8): 1302–1306. XIAO Yiqun, XIE Zhiyong, SHEN Jun, et al. High Power Laser and Particle Beams (in Chinese), 2006, 18(8): 1302–1306. [3] 肖轶群. 纳米多孔二氧化硅减反膜的制备、改性及应用研究[D]. 上海: 同济大学, 2007. XIAO Yiqun. Preparation, characterization and application of nanoporous silica thin films via sol–gel process (in Chinese, dissertation). Shanghai: Tongji University, 2007. [4] THOMAS I M, BURNHAM A K, ERTEL J R, et al. Method for reducing the effect of environmental contamination of sol–gel optical coatings [C]. SPIE, 1999, 3492: 220–229. [5] XU Y, HAO F W, LI Z H, et al. Antireflective silica thin films with super water repellence via a sol–gel process [J]. Appl Opt, 2003, 42(1): 108–112. [6] MARSHALL K L, CULAKOVA Z, ASHE B, et al. Vapor-phase-depo- sited organosilane coatings as hardening agents for high-peak-power laser optics [C]//Thin-Film Coatings for Optical Applications Ⅳ, San Diego, CA, USA, 2007: doi:10.1117/12.734723. [7] 国际标准化组织. ISO 11254-2—2001激光和激光相关设备: 光学表面激光诱导损伤阈的测定 第二部分: S-on-1试验[S]: 2001–09–01. International Organization for Standardization. ISO 11254-2—2001 Lasers and laser-related equipment-Determination of laser-induced damage threshold of optical surfaces-Part 2: S-on-1 test [S]. 2001–09–01. [8] TAKEDA S, FUKAWA M, HAYASHI Y, et al. Surface OH group governing adsorption properties of metal oxide films [J]. Thin Solid Films, 1999, 339(1/2): 220–224. [9] GUN'KO V M, VEDAMUTHU M S, HENDERSON G L, et al. Mechanism and kinetics of hexamethyldisilazane reaction with a fumed silica surface [J]. J Colloid Interf Sci, 2000, 228(1): 157–170. [10] BELYAKOVA L A, VARVARIN A M. Surfaces properties of silica gels modified with hydrophobic groups [J]. Colloids Surf A: Physicochem Eng Aspects, 1999, 154(3): 285–294. [11] BIEN-AIMé K, PEREIRA A, BELIN C, et al. Impact of outgassing organic contamination on laser induced damage of optics [C]//Laser- Induced Damage in Optical Materials. Boulder, CO, USA, 2009: doi:10.1117/12.836384. [12] RAVEL G, BOUCHUT P, GARREC P, et al. Long Term Performances of Very High Laser Damage Resistance Mirrors [M]. Bellingham: Spie-int Soc Optical Engineering, 2003: 170–179. [13] BECKER S, PEREIRA A, BOUCHUT P, et al. Laser-induced Contamination of Silica Coatings in Vacuum-art. No.64030J [M]. Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series. Bellingham: Spie-int Soc Optical Engineering, 2007: 6403, J4030. [14] PING MA F P S C. Contamination process and laser-induced damage of HfO2/SiO2 coatings in vacuum [J]. Chin Opt Lett, 2009, 7(7): 643– 645. [15] SHENG C Y. Effects of laser-induced damage on optical windows in the presence of adhesives under simulated thermal-vacuum conditions [A]//Laser-Induced Damage in Optical Materials. Boulder, CO, USA, 2006: doi:10.1117/12.695857.
