Combined studies of surface evolution and crack healing for the suppression of negative factors during CO<sub>2</sub> laser repairing of fused silica

Chao Tan; Linjie Zhao; Mingjun Chen; Jian Cheng; Zhaoyang Yin; Qi Liu; Hao Yang; Wei Liao

Chinese Optics Letters
Vol. 19,
Issue 4,
pp. 041402-
(2021)

Combined studies of surface evolution and crack healing for the suppression of negative factors during CO₂ laser repairing of fused silica

Chao Tan, Linjie Zhao, Mingjun Chen, Jian Cheng, Zhaoyang Yin, Qi Liu, Hao Yang, and Wei Liao

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Chao Tan, Linjie Zhao, Mingjun Chen, Jian Cheng, Zhaoyang Yin, Qi Liu, Hao Yang, and Wei Liao, "Combined studies of surface evolution and crack healing for the suppression of negative factors during CO₂ laser repairing of fused silica," Chin. Opt. Lett. 19, 041402- (2021)

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Abstract

In order to reveal the evolution mechanism of repaired morphology and the material’s migration mechanism on the crack surface in the process of CO₂ laser repairing surface damage of fused silica optics, two multi-physics coupling mathematical models with different scales are developed, respectively. The physical problems, such as heat and mass transfer, material phase transition, melt flow, evaporation removal, and crack healing, are analyzed. Studies show that material ablation and the gasification recoil pressure accompanying the material splash are the leading factors in forming the Gaussian crater with a raised rim feature. The use of low-power lasers for a long time can fully melt the material around the crack before healing, which can greatly reduce the size of the residual air layer. Combined with the experimental research, the methods to suppress the negative factors (e.g., raised rim, deposited debris, air bubbles) in the CO₂ laser repairing process are proposed.

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Chinese Optics Letters