激光驱动IFE电站镜面损伤对光束性能影响的建模

IF 0.3 1区艺术学 0 MUSIC

NINETEENTH CENTURY MUSIC Pub Date : 2002-11-07 DOI:10.1109/FUSION.2002.1027657

T. Mau, M. Tillack, M. Zaghloul

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引用次数: 4

摘要

在激光驱动的IFE发电厂中，掠入射金属反射镜受到各种威胁，导致激光吸收增加、光束质量下降和激光诱导损伤阈值降低。在本文中，我们根据损伤的性质和大小，使用几种建模方法分析了入射到目标上的反射镜反射率变化和波前畸变。我们已经开发了一个四层菲涅耳求解器来量化反射率对表面污染物和镜面保护涂层厚度的依赖，以及它们的材料特性，在相关的入射角范围内。对于像碳这样的有损污染物，反射率随厚度的增加而降低，主要是由于表面耗散，但这种有害影响随着掠入射而减弱。对于相对于波长较小的缺陷尺寸，我们使用Kerchhoff的波散射理论来评估光束性能的退化。

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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Modeling of mirror surface damage effects on beam performance in a laser-driven IFE power plant

Grazing incidence metal mirrors in laser-driven IFE power plants are subject to a variety of threats that result in damages leading to increased laser absorption, beam quality degradation and reduced laser-induced damage threshold. In this paper, we analyze the mirror reflectivity changes and wavefront distortions incident on the target using several modeling approaches, depending on the nature and size of the damage. We have developed a four-layer Fresnel solver to quantify the dependence of reflectivity on the thickness of surface contaminant and mirror protective coating, and their material properties, for a relevant range of incident angles. With a lossy contaminant like carbon, it is found that reflectivity decreases with thickness mainly due to surface dissipation, but this deleterious effect is diminished towards grazing incidence. For defect size small with respect to a wavelength, we have used Kerchhoff's wave scattering theory to evaluate degradation of the beam performance.

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来源期刊

NINETEENTH CENTURY MUSIC MUSIC-

CiteScore

0.40

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0.00%

发文量

期刊介绍： 19th-Century Music covers all aspects of Western art music between the mid-eighteenth and mid-twentieth centuries. We welcome--in no particular order--considerations of composers and compositions, styles, performance, historical watersheds, cultural formations, critical methods, musical institutions, ideas, and topics not named on this list. Our aim is to publish contributions to ongoing conversations at the leading edge of musical and multidisciplinary scholarship.