Temporally and spatially resolved photoluminescence of laser-induced damage sites of fused silica

Laser Damage Pub Date : 2023-11-24 DOI:10.1117/12.2683719
Jae Hyuck Yoo, Yoonsoo Rho, Christopher F. Miller, Robin E. Yancey, Ted A. Laurence, C. W. Carr
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Abstract

We present a temporally and spatially resolved photoluminescence (PL) measurement technique developed to rapidly characterize fused silica damage sites and determine their propensity to grow under subsequent laser irradiation. A diffusional model is used to describe the observed PL dynamics and correlation to the local damage morphologies. We believe that our measurement and analysis approach can allow rapid identification of growth-prone damage sites, providing a pathway to fast, non-destructive predictions of laser-induced damage growth and enable selective damage site mitigation which will greatly reduce the time required to recycle NIF’s optics.
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激光诱导熔融石英损伤点的时间和空间分辨光致发光
我们介绍了一种时间和空间分辨光致发光(PL)测量技术,该技术用于快速确定熔融石英损伤点的特征,并确定其在后续激光照射下的生长倾向。我们使用扩散模型来描述观察到的光致发光动态以及与局部损伤形态的相关性。我们相信,我们的测量和分析方法可以快速识别易生长的损伤点,为快速、非破坏性地预测激光诱导的损伤生长提供途径,并实现选择性损伤点缓解,这将大大缩短回收 NIF 光学器件所需的时间。
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Laser Damage
Laser Damage
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