当前 AR 涂层窗口在 343 纳米和超短脉冲下的激光损伤性能概览

Laser Damage Pub Date : 2023-11-24 DOI:10.1117/12.2686252

J. Vanda, Martin Mydlář, Priyadarshani Narayanasamy, Hana Turcicova, Radek Poboril, J. Brajer, T. Mocek

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引用次数: 0

摘要

在大多数激光应用中，光学元件都必须配备抗反射涂层。因此，在大部分用户案例中，所用元件在高能量下的抗激光损伤性和稳定性是限制其性能的关键因素。在紫外线区域，激光损伤问题尤为突出，因为许多光学材料在长时间暴露下会发生降解，而任何污染都可能加速这种降解。以下论文将介绍为紫外区大功率激光器设计的、配备 AR 涂层的部分市售光学窗口的激光损伤性能。本文将比较用毫米级激光束测量的损伤阈值，并考虑超短脉冲长时间照射的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An overview on laser damage performance of current AR-coated windows at 343 nm and ultrashort pulses

For most of the laser applications is optics equipped with antireflective coatings must. Therefore, laser damage resistance and stability at high energies of used components is a key performance limiting factor at the large portion of the user cases. In UV region, issue of laser damage is particularly enhanced as many optical materials tends to degrade at longer exposure and any contamination may accelerate that. In the following paper will be disseminated laser damage performance of selected commercially available optical windows equipped with AR coatings, designed for high-power lasers in UV region. Damage threshold measured with mm-size laser beam will be compared and influence of the long exposure to ultrashort pulses will be considered.

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Laser Damage

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