Laser-induced damage of multilayer high-reflectance coatings for 248 nm

H. Qi, Kui Yi, Hua Yu, Yun Cui, Da-wei Li, Zhixing Gao, J. Shao, Z. Fan
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引用次数: 2

Abstract

In order to study the effect of material properties on the laser induced damage of dielectric coatings at a wavelength of 248 nm, multilayer coatings were deposited by electron beam reactive evaporation technique onto fused silica substrates with the materials of hafnium oxide, aluminum oxide and silicon dioxide. Laser-induced damage thresholds (LIDTs), morphologies and profiles of damage sites of multilayer thin films were measured to investigate the damage mechanism. Besides, with our programmed software, the temperature rise in the multilayers was calculated to better understand the relationship between damage morphology, electric field peak location and depth of damage sites. The results indicate that the absorption of defect and the electric field distribution of thin film greatly contribute to LIDTs of thin films, and the control of defect, especially defect with strong absorption, is still the only way to improve the laser radiation resistivity of coatings in the UV spectral region.
248nm多层高反射涂层的激光损伤
为了研究材料性能对248nm激光诱导介质涂层损伤的影响,采用电子束反应蒸发技术在熔融石英衬底上沉积了以氧化铪、氧化铝和二氧化硅为主要材料的多层介质涂层。通过测量多层薄膜的激光诱导损伤阈值(LIDTs)、损伤部位的形貌和轮廓来研究损伤机制。此外,利用我们编写的软件计算了多层材料的温升,以便更好地了解损伤形貌、电场峰值位置和损伤部位深度之间的关系。结果表明,缺陷的吸收和薄膜的电场分布对薄膜的LIDTs有很大的影响,控制缺陷,特别是强吸收缺陷,仍然是提高涂层紫外光谱区激光辐射电阻率的唯一途径。
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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