Laser damage of calcium fluoride by ArF excimer laser irradiation

M. Azumi, E. Nakahata
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引用次数: 4

Abstract

Artificially grown excimer grade calcium fluoride is one of key optical materials used in microlithography applications. Such calcium fluoride is required for optical components requiring high laser durability and laser induced bulk damage threshold (LIDT). The mechanical properties of calcium fluoride can vary depending on the crystal axis, <111>, <110> and <100>. For example, material hardness is highest in the {100} crystal orientation. Furthermore, it is also known to cleave in the {111} plane. Therefore there is a possibility of a property that originates in such a crystal structure that influences LIDT. In this study, we investigated the relationship between crystal structure, laser durability and LIDT. The influence in the relation between the polarization plane of the ArF excimer laser and the crystal orientation of calcium fluoride in regards to LIDT was examined. The samples were all prepared from the same CaF2 crystal with optical axis's of <111>, <110> and <100>. The azimuth of the samples was measured by the reflection Laue method. For the experiment, the samples were rotated to the polarization plane of the ArF excimer laser, and the change in the number of irradiation pulses that damage was observed and measured. As a result, we determined the position of the crystal orientation of the calcium fluoride relative to the polarization plane of the ArF excimer laser that produced the highest LIDT.
ArF准分子激光照射氟化钙的激光损伤
人工生长的准分子级氟化钙是微光刻应用的关键光学材料之一。这种氟化钙是需要高激光耐久性和激光诱导体损伤阈值(LIDT)的光学元件所必需的。氟化钙的机械性能会随结晶轴、、和而变化。例如,材料硬度在{100}晶向中最高。此外,它也已知在{111}面中分裂。因此,有可能在这种晶体结构中产生一种影响LIDT的特性。在这项研究中,我们研究了晶体结构、激光耐久性和LIDT之间的关系。研究了ArF准分子激光偏振面与氟化钙晶体取向的关系对LIDT的影响。样品均由光轴为、和的同一CaF2晶体制备。用反射法测量样品的方位角。在实验中,将样品旋转到ArF准分子激光器的偏振面,观察并测量辐照脉冲数的变化。因此,我们确定了氟化钙的晶体取向相对于产生最高LIDT的ArF准分子激光器偏振平面的位置。
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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