351 nm激光辐照在SiO2衬底上制备高通量前驱体

Laser Damage Pub Date : 2019-11-20 DOI:10.1117/12.2536507
D. Cross, C. Carr
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引用次数: 1

摘要

暴露在351 nm脉冲下的熔融石英光学器件的激光致损伤性能是大多数高能激光系统设计和运行的一个限制因素。因此,在开发激光损伤测试协议和程序以告知激光系统设计和操作限制方面已经花费了大量的努力。这些测试通常依赖于多次激光照射进行统计验证。对于大孔径系统,测试等于系统中光学元件的面积在功能上是不可能的,需要审问具有高影响的亚尺度证人样品。在这项工作中,我们表明,在某些情况下,用于测试样品上一个位置的激光暴露将在暴露于激光的区域之外产生额外的激光诱导损伤前体,从而降低随后暴露时观察到的损伤性能。此外,我们将概述这种现象发生的条件,以及减轻或消除这种影响的方法。
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Creation of high-fluence precursors by 351-nm laser exposure on SiO2 substrates
The laser-induced damage performance of fused silica optics when exposed to 351-nm ns pulses is a limiting factor in the design and operation of most high-energy laser systems. As such, significant effort has been expended in developing laser damage testing protocols and procedures to inform laser system design and operating limits. These tests typically rely on multiple laser exposures for statistical validation. For larger aperture systems testing an area equal to that of the optical components in the system is functionally impossible requiring interrogation of sub-scale witness samples with elevated fluences. In this work, we show that, under the certain circumstances, the laser exposure used to test one location on a sample will generate additional laser-induced damage precursors in regions beyond that exposed to laser light and hence degrade the damage performance observed on subsequent exposures. In addition, we will outline the conditions under which this phenomenon occurs, as well as methods for mitigating or eliminating the effect.
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