光学
材料科学
机械加工
激光器
吸收(声学)
辐照
激光加工
激光束
光电子学
复合材料
冶金
物理
核物理学
作者
Yichi Han,Songlin Wan,Xiaocong Peng,Huan Chen,Shengshui Wang,Hanjie Li,Pandeng Jiang,Chaoyang Wei,Jianda Shao
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2024-04-01
卷期号:32 (9): 16273-16273
被引量:6
摘要
The machining-induced subsurface damage (SSD) on fused silica optics would incur damage when irradiated by intense lasers, which severely restricts the service life of fused silica optics. The high absorption of fused silica to 10.6 µm makes it possible to utilize pulsed CO 2 laser to remove and characterize SSD by layer-by-layer ablation, which improves its laser-induced damage threshold. However, thermal stress during the laser ablation process may have an impact on SSD, leading to extension. Still, the law of SSD morphology evolution mechanism has not been clearly revealed. In this work, a multi-physics simulated model considering light field modulation is established to reveal the evolution law of radial SSD during the laser layer-by-layer ablation process. Based on the simulation of different characteristic structural parameters, two evolution mechanisms of radial SSD are revealed, and the influence of characteristic structural parameters on SSD is also elaborated. By prefabricating the SSD by femtosecond laser, the measurements of SSD during CO 2 laser layer-by-layer ablation experiments are consistent with the simulated results, and three stages of SSD depth variation under two evolution processes are further proposed. The findings of this study provide theoretical guidance for effectively characterizing SSD based on laser layer-by-layer ablation strategies on fused silica optics.
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