Experimental and theoretical studies of subpicosecond laser damage in TixSi1-xO2 composite films

D. Nguyen, I. Cravetchi, L. Emmert, W. Rudolph, M. Jupé, M. Lappschies, K. Starke, D. Ristau
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引用次数: 4

Abstract

The scaling law of subpicosecond laser induced damage (LID) with respect to pulse duration and band gap for TixSi1-xO2 composite films is studied. The band gap in these materials can be changed gradually by varying the composition pa-rameter x. Damage is very deterministic and scaling laws with respect to pulse duration and band gap energy derived previously for pure materials are found to apply to composite films. The scaling can be explained theoretically by using a modified Keldysh theory. The composite materials also show a dependence of the damage threshold as a function of pulse number F(N) (incubation) that is similar to observations in pure dielectric oxides. The measured F(N) is explained with a theoretical model that assumes the formation of an intermediate sample state that increases the absorption of sub-sequent pulses in the train.
亚皮秒激光损伤TixSi1-xO2复合薄膜的实验与理论研究
研究了TixSi1-xO2复合薄膜亚皮秒激光诱导损伤随脉冲时间和带隙的变化规律。这些材料中的带隙可以通过改变组成参数x而逐渐改变。损伤是非常确定的,并且发现先前为纯材料导出的关于脉冲持续时间和带隙能量的标度定律适用于复合薄膜。用改进的Keldysh理论可以从理论上解释标度。复合材料也显示出损伤阈值作为脉冲数F(N)(孵育)的函数的依赖关系,这与在纯介电氧化物中的观察结果相似。测量的F(N)用一个理论模型来解释,该模型假设中间样品状态的形成增加了序列中后续脉冲的吸收。
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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