[1] 蒋勇, 袁晓东, 祖小涛, 等. 熔石英亚表面缺陷的研究进展［J］. 材料导报,2009, 23(7): 102-106.(Jiang Yong, Yuan Xiaodong, Zu Xiaotao, et al. Research progress on subsurface defects in fused silica. Material Review, 2009,23(7): 102-106)

[2] Suratwala T I, Miller P E, Bude J D. HF-based etching processes for improving laser damage resistance of fused silica optical surfaces［J］. J Am Ceram Soc, 2011,94(2): 416-418.

[3] Suratwala T I, Miller P E, Ehrmann P R. Polishing slurry induced surface haze on phosphate laser glasses［J］. Journal of Non-Crystalline Solids, 2005,351(24/26): 2091-2101.

[4] 蒋晓东,郑直,祖小涛, 等. 亚表面杂质对熔石英激光损伤的影响［J］. 电子科技大学学报, 2012,41(2): 238-241.(Jiang Xiaodong, Zheng Zhi, Zu Xiaotao, et al. Distribution of inclusions in fused silica sub-surface and its influence on laser-induced damage. Journal of University of Electronic Science and Technology of China, 2012,41(2): 238-241)

[5] 苗心向. 金属污染诱导熔石英表面损伤机理研究［D］. 绵阳: 中国工程物理研究院,2009: 40-50.(Miao Xinxiang. Metal pollution-induced mechanism of fused silica surface damage. Mianyang: CAEP, 2009: 40-50)

[6] 欧阳升, 刘志超, 许乔. 三倍频熔石英激光损伤的吸收前驱体［J］. 应用光学,2011,32(6): 1257-1262.(Ouyang Sheng,Liu Zhichao, Xu Qiao. Surface damage precuursors in triple-frequency fused silica. Journal of Applied Optics, 2011,32(6): 1257-1262)

[7] Zheng Zhi, Zu Xiaotao, Jiang Xiaodong. Effect of HF etching on the surface quality and laser-induced damage of fused silica［J］. Optics and Laser Technology, 2012,44(4): 1039-1042.

[8] Suratwala T, Wong L, Miller P. Sub-surface mechanical damage distributions during grinding of fused silica［J］. Journal of Non-Crystalline Solids, 2006,352: 5601-5607.

[9] Suratwala T, Steele R, Feit M. Effect of Rogue particles on the sub-surface damage of fused silica during grinding/polishing［J］. Journal of Non-Crystalline Solids, 2008, 354: 2023-2037.

[10] 王凤蕊,郑直,刘红婕, 等. HF酸刻蚀提升熔石英亚表面划痕抗损伤性能的机理［J］. 光子学报,2012, 41(3): 253-257.(Wang Fengrui, Zheng Zhi, Liu Hongjie, et al. Mechnisms of HF solution improving damage properties of fused silica subsurface cracks. Acta Photonica Sinica, 2012,41(3): 253-257)

[11] 王凤蕊,黄进,刘红婕, 等. 激光诱导HF 酸刻蚀后熔石英后表面划痕的损伤行为研究［J］. 物理学报,2010, 59(7): 5122-5127.(Wang Fengrui, Huang Jin, Liu Hongjie, et al. Laser induced rear-surface-crack damage properties of fused silica etched with HF solution. Acta Physica Sinica, 2010, 59(7): 5122-5127)

[12] 花金荣, 祖小涛, 李莉, 等. 熔石英亚表面三维Hertz 锥形划痕附近光强分布的数值模拟［J］. 物理学报, 2010,59(4): 2519-2524.(Hua Jinrong, Zu Xiaotao, Li Li, et al. Numerical simulation of light intensity distribution in the vicinity of three-dimensional Hertzian conical scratch on fused silica subsurface. Acta Physica Sinica, 2010,59(4): 2519-2524)

[13] 徐世珍, 吕海兵, 田东斌, 等. 酸蚀深度对熔石英三倍频激光损伤阈值的影响［J］. 强激光与粒子束,2008, 20(5): 760-764.(Xu Shizhen, Lü Haibing, Tian Dongbin, et al. Effects of acid etching depth on 355 nm laser induced damage threshold of fused silica. High Power Laser and Particle Beams, 2008,20(5): 760-764)

[14] 陈猛, 向霞, 蒋勇, 等. 酸蚀与紫外激光预处理结合提高熔石英损伤阈值［J］. 强激光与粒子束, 2010, 22(6): 1383-1387.(Chen Meng, Xiang Xia, Jiang Yong, et al. Enhancement of laser induced damage threshold of fused silica by acid etching combined with UV laser conditioning. High Power Laser and Particle Beams, 2010, 22(6): 1383-1387)