Ground fused silica processed by combined chemical etching and CO<sub>2</sub> laser polishing with super-smooth surface and high damage resistance

Zhen Cao; Chaoyang Wei; Xin Cheng; Yuanan Zhao; Xiaocong Peng; Zhigang Jiang; Jianda Shao; Jianda Shao; Jianda Shao

doi:10.1364/OL.409857

Optics Letters
Vol. 45,
Issue 21,
pp. 6014-6017
(2020)
•https://doi.org/10.1364/OL.409857

Ground fused silica processed by combined chemical etching and CO₂ laser polishing with super-smooth surface and high damage resistance

Zhen Cao, Chaoyang Wei, Xin Cheng, Yuanan Zhao, Xiaocong Peng, Zhigang Jiang, and Jianda Shao

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Zhen Cao, Chaoyang Wei, Xin Cheng, Yuanan Zhao, Xiaocong Peng, Zhigang Jiang, and Jianda Shao, "Ground fused silica processed by combined chemical etching and CO₂ laser polishing with super-smooth surface and high damage resistance," Opt. Lett. 45, 6014-6017 (2020)

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- Lasers and Laser Optics
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About this Article
History
- Original Manuscript: September 9, 2020
- Revised Manuscript: October 2, 2020
- Manuscript Accepted: October 2, 2020
- Published: October 27, 2020

Abstract

Laser damage in fused silica, particularly ultraviolet laser damage, is still a key problem limiting the development of high-power laser systems. In this Letter, a combined process of chemical etching and ${{\rm{CO}}_2}$ laser polishing was applied to ground fused silica. A super-smooth surface with a root-mean-square roughness of 0.25 nm was achieved through this combined process. Furthermore, the combined process can reduce the introduction of photoactive metal impurity elements, destructive defects, and chemical-structure defects, resulting in a 0% probability damage threshold nearly 33% higher than a conventional chemical mechanical polished sample for a 7.6 ns pulse at a wavelength of 355 nm.

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