紫外/臭氧清洗去除ALADIN激光光学器件上的激光诱导污染

Laser Damage Pub Date : 2019-11-20 DOI:10.1117/12.2535772

N. Bartels, P. Allenspacher, W. Riede, H. Schröder, D. Wernham

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引用次数: 3

摘要

欧洲航天局的Aeolus卫星于2018年8月成功发射升空，使用大气激光多普勒仪(ALADIN)测量全球风廓线。ALADIN具有高功率紫外激光源，发射波长为355nm的纳秒脉冲。ALADIN发展的关键一步是减轻激光诱导污染(LIC)。在这项工作中，我们评估了使用汞灯紫外线/臭氧清洗去除LIC沉积物的机会。我们发现紫外/臭氧清洗是一种非常有效的工具，用于去除激光诱导的分子污染，这些污染是由代表ALADIN激光的材料混合物的挥发性成分引起的。此外，我们表明，通过紫外线/臭氧清洗去除污染的光学表面在对随后的LIC和激光诱导损伤的敏感性方面与原始光学表面相似。这些结果表明，通过地面热真空/寿命测试，紫外/臭氧清洗是一种有效且安全的光学表面清洗方法。

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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Removal of laser-induced contamination on ALADIN laser optics by UV/ozone cleaning

The ESA satellite Aeolus was successfully launched into space in August 2018 and measures global wind profiles using the Atmospheric Laser Doppler Instrument (ALADIN). ALADIN features a high-power UV laser source emitting nanosecond pulses at a wavelength of 355 nm. A crucial step in the development of ALADIN was the mitigation of laser-induced contamination (LIC). In this work we assess the opportunity of removing LIC deposits using UV/ozone cleaning with a mercury lamp. We find that UV/ozone cleaning is a very effective tool for removing laser-induced molecular contamination induced by the volatile components of a material mix representative of the ALADIN laser. Furthermore, we show that optical surfaces on which a contamination is removed via UV/ozone cleaning behave similar to pristine optical surfaces with respect to their susceptibility to subsequent LIC as well as laser-induced damage. These results demonstrate that UV/ozone cleaning is a useful and safe way of cleaning optical surfaces after ground-based thermal vacuum/lifetime testing.

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Laser Damage

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