Fused Quartz Subsurface Damage Detecting Method Based on Confocal Fluorescence Microscopy

[1] [1] Song Bo, Luo Lin, Wang Yufen. Research of whetting and polishing characteristic of high pure quartz glass[J]. Optic Technique, 2008, 34(s1): 278-279.

[2] [2] H P paul, D F Edwards, J B Davis. Subsurface damage in optical materials: origin measurement & removal[C]. SPIE, 1988. 113-118.

[3] [3] Wang Chunhui. Study on Optical Sub-Surface Damage Evaluation Technology[D]. Xi′an: Xi′an Technological University, 2010. 45-46.

[4] [4] Li Gailing. Theoretical and Experimental Research on the Measurement of Grinding Subsurface Damage for Optical Materials[D]. Changsha: National University of Defense Technology, 2006. 15-16.

[5] [5] Genin F Y, Salleo A, Pistor T V, et al.. Role of light intensification by cracks in optical breakdown on surfaces[J]. JOSA A, 2001, 18(10): 2607-2616.

[6] [6] Davis T. Biography of louis E. brus[C]. Proceedings of the National Academy of Sciences of the United States of America, 2005, 102(5): 1277-1279.

[7] [7] Jamieson T, Bakhshi R, Petrova D, et al.. Biological applications of quantum dots[J]. Biomaterials, 2007, 28(31): 4717-4732.

[8] [8] Wu X, Liu H, Liu J, et al.. Immunofluorescent labeling of cancer marker Her2 and other cellular targets with semiconductor quantum dots[J]. Nature Biotechnology, 2002, 21(4): 41-46.

[9] [9] Lindquist, S D Jacobs, A Feltz. Surface preparations for rapid measurement of sub-surface damage depth[C]. Science of Optical Finishing Topical Meeting, 1990. 57-61.

[10] [10] Bourlinos A B, Stassinopoulos A, Anglos D, et al.. Surface functionalized carbogenic quantum dots[J]. Small, 2008, 4(4): 455-458.

[11] [11] Williams W B. A Novel Fluorescence Based Method of Assessing Subsurface Damage in Optical Materials[D]. Charlotte: The University of North Carolina at Charlotte, 2009. 45-47.

[12] [12] Chan W C W, Nie S. Quantum dot bioconjugates for ultrasensitive nonisotopic detection[J]. Science, 1998, 281(5385): 2016-2018.

[13] [13] Williams W B, Mullany B A, Parker W C, et al.. Using quantum dots to tag subsurface damage in lapped and polished glass samples [J]. Appl Opt, 2009, 48(27): 5155-5163.

[14] [14] Li Feng. Image analysis in optical density parameters of the physical significance of proper understanding and use[J]. Chinese Journal of Anatomy, 2009, 32(2): 271-274.

[15] [15] Williams W B, Mullany B A, Parker W C, et al.. Using quantum dots to tag subsurface damage in lapped and polished glass samples [J]. Appl Opt, 2009, 48(27): 5155-5163.

CLP Journals

[1] Yang Feifei, Miao Jie, Xie Yujiang, Liu Dean, Zhu Jianqiang. Internal Defects of Large Optics Detected by Total Internal Reflection Technique[J]. Chinese Journal of Lasers, 2017, 44(6): 604005

[2] Wang Huadong, Zhang Taihua. Research Progresses on Characterization and Detection Technology of Subsurface Damages in Optical Materials[J]. Laser & Optoelectronics Progress, 2017, 54(10): 100003

[3] Wang Hongxiang, Shen Lu, Li Chengfu, Bai Hua, Zhou Yan. Analysis and Experimental Investigation of Laser Induced Damage of Optics[J]. Chinese Journal of Lasers, 2017, 44(3): 302006

Tools

Get Citation

Copy Citation Text

Wang Jinghe, Zhang Lei, Wang Hongxiang, Guo Haitao. Fused Quartz Subsurface Damage Detecting Method Based on Confocal Fluorescence Microscopy[J]. Chinese Journal of Lasers, 2015, 42(4): 406004

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category: materials and thin films

Received: Dec. 3, 2014

Accepted: --

Published Online: Mar. 25, 2015

The Author Email: Jinghe Wang (wjhh@hit.edu.cn)

DOI:10.3788/cjl201542.0406004

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology