Damage performance of fused silica debris shield at the National Ignition Facility

Laser Damage Pub Date : 2019-11-20 DOI:10.1117/12.2536452
Z. Liao, C. Carr, D. Cross, C. Miller, P. Miller, M. Monticelli, B. Olejniczak, R. Raman, D. VanBlarcom, B. Welday, P. Whitman, L. Wong, T. Suratwala
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引用次数: 1

Abstract

The final optics in the National Ignition Facility (NIF) are protected from target debris by sacrificial (disposable) debris shields (DDS) comprised of 3-mm thick Borofloat. While relatively inexpensive, Borofloat has been found to have bulk inclusions which, under UV illumination, damage, grow, and occasional erupt though the surface of the DDS. We have shown previously that debris generated from Input Surface Bulk Eruptions (ISBE) are a significant source of damage on NIF. Inclusion-free fused silica debris shield (FSDS) have been installed in between the DDS and the final optics on some NIF beam lines to test their efficacy in mitigating damage initiation. We will show results of the damage performance of the FSDS and its role in protecting the final optics. These results will help in our economic analysis of the potential benefits of using FSDS to protect NIF final optics.
国家点火装置熔融硅碎片屏蔽的损伤性能
国家点火装置(NIF)的最终光学系统由3毫米厚的硼浮子组成的牺牲(一次性)碎片护盾(DDS)保护。虽然相对便宜,但人们发现硼浮子有大块的内含物,在紫外线照射下,它们会破坏、生长,偶尔会从DDS表面喷发出来。我们之前已经表明,输入面大块喷发(ISBE)产生的碎片是NIF的一个重要破坏来源。在一些NIF波束线上,在DDS和最终光学器件之间安装了无夹杂物熔融硅碎片屏蔽(FSDS),以测试其减轻损伤的有效性。我们将展示FSDS的损伤性能结果及其在保护最终光学器件中的作用。这些结果将有助于我们对使用FSDS保护NIF最终光学器件的潜在效益进行经济分析。
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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