国家点火装置光学系统的自动损伤检测显微系统

Laser Damage Pub Date : 2022-12-02 DOI:10.1117/12.2642181

Christopher F. Miller, D. Cross, J. Senecal, R. Clark, C. Amorin, L. Kegelmeyer, C. Carr, Ernest Truscott

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引用次数: 0

摘要

识别光学元件表面的激光损伤，跟踪其随时间的增长并进行修复，是国家点火装置经济运行的重要组成部分。安装在NIF上的光学元件可在原位监测损伤生长情况，并可根据需要拆除以进行修复和重新使用。非原位自动显微镜系统用于检查全尺寸NIF光学器件，允许检测直径<10 μm的损伤部位。由于激光损伤形态的多样性，有几种算法用于分析显微镜数据并识别与尺寸无关的损伤，而忽略了与激光损伤无关的特征。该系统显著增加了NIF最终光学元件的寿命(≈2.3倍)，从而超出了原位检测本身的能力。

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An automated damage inspection microscopy system for National Ignition Facility optics

Identifying laser induced damage on the surface of optical components for the purpose of tracking its growth over time and repairing it is an important part of the economical operation of the National Ignition Facility (NIF). Optics installed on NIF are monitored in situ for damage growth and can be removed as needed for repair and re-use. An ex-situ automated microscopy system is used to inspect full sized NIF optics allowing for the detection of damage sites <10 μm in diameter. Due to the various morphology of laser damage, several algorithms are used to analyze the microscopy data and identify damage regardless of size, while ignoring features not related to laser damage. This system has significantly increased the lifetime of NIF final optics (≈2.3x) thereby extending beyond the capabilities of the in-situ inspection by itself.

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Laser Damage

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