532-nm, nanosecond laser mirror thin film damage competition

Laser Damage Pub Date : 2020-11-09 DOI:10.1117/12.2566691
R. Negres, C. Stolz, G. Batavičiūtė, A. Melninkaitis
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引用次数: 2

Abstract

This year’s competition aimed to survey state-of-the-art visible high reflectors in the nanosecond pulse length regime. The requirements for the coatings were a minimum reflection of 99.5% at 0 degrees incidence angle light at 532-nm. The choice of coating materials, design, and deposition method were left to the participants. Laser damage testing was performed at a single testing facility using the raster scanning test protocol with a 6-ns pulse length laser system operating at 100 Hz in a single-longitudinal mode. A double blind test assured sample and submitter anonymity. The damage performance results (LIDT), sample rankings, details of the deposition processes, coating materials and substrate cleaning methods are shared. We found that hafnia/silica multilayer coatings deposited by all five deposition methods surveyed were the most damage resistant within their group under these test conditions. In addition, hafnia/alumina/silica designs deposited performed second best.
532nm,纳秒激光反射薄膜损伤竞赛
今年的竞赛旨在调查纳秒脉冲长度范围内最先进的可见高反射器。对涂层的要求是在532nm的0度入射角光线下,最低反射率为99.5%。涂层材料、设计和沉积方法的选择留给了参与者。激光损伤测试在单个测试设备上进行,使用光栅扫描测试协议,使用6 ns脉冲长度的激光系统,在单纵向模式下工作,频率为100 Hz。双盲测试保证了样本和提交者的匿名性。他们分享了损伤性能结果(LIDT)、样品排名、沉积过程细节、涂层材料和基材清洁方法。我们发现,在这些测试条件下,通过所有五种沉积方法沉积的铪/二氧化硅多层涂层是同类中最耐损伤的。此外,半氧化铪/氧化铝/二氧化硅设计的表现次之。
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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