Bulk LIDT variances of fused silica: a material developer's perspective

Laser Damage Pub Date : 2021-10-12 DOI:10.1117/12.2599501

F. Nürnberg, B. Kühn

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Abstract

Fused silica an optical material of choice for high energy laser applications offers a wide range of advantages in the UV and NIR wavelength range. Increasing laser performance (especially with critical fluences) require detailed information on laser induced damage threshold of the optical material itself, and not just the coating. Therefore, S-on-1 measurements according to ISO 21254-2 were commissioned from two different, experienced, and well-respected laboratories. The resulting LIDT (laser induced damage threshold) values are discussed in the context of current publications and differences are worked out. The measurements focus on the ns-pulse regime at 1064 and 355nm. The results differ up to a factor of 10 between different laboratories. In comparison to the literature study, we noticed a spread of measured values around a factor of 20. Non-binding recommendations of the standard as well as the optical setup have significant influence on the obtained LIDT values. However, depending on the optical design of the application, one or the other optical setup with the corresponding LIDT value can be relevant. In this respect there is no such thing as a single, generally applicable value. Nevertheless, a standard should enable material comparisons under sufficiently standardized conditions.

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熔融二氧化硅的体LIDT差异:材料开发人员的观点

熔融二氧化硅是高能激光应用的首选光学材料，在紫外和近红外波长范围内具有广泛的优势。提高激光性能(特别是在关键影响下)需要光学材料本身的激光诱导损伤阈值的详细信息，而不仅仅是涂层。因此，根据ISO 21254-2的S-on-1测量由两个不同的，经验丰富的，备受尊敬的实验室委托。在当前出版物的背景下讨论了所得LIDT(激光诱导损伤阈值)值，并得出了差异。测量集中在1064和355nm的ns脉冲区。不同实验室的结果差异可达10倍。与文献研究相比，我们注意到测量值的分布约为20倍。标准的非约束性建议以及光学设置对获得的LIDT值有重大影响。但是，根据应用的光学设计，具有相应LIDT值的一个或另一个光学设置可能是相关的。在这方面，不存在单一的、普遍适用的价值。然而，一项标准应当能够在充分标准化的条件下进行材料比较。

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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Laser Damage

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