Influence of laser beam size and wavelength in the determination of LIDT and associated laser damage precursor densities in KH2PO4

J. Natoli, J. Capoulade, H. Piombini, B. Bertussi
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引用次数: 21

Abstract

The laser resistance of large optical components remains an important limitation for the performances and the maintenance costs in LMJ or NIF projects. For practical reasons LIDT studies are commonly performed with small samples and table top lasers whose characteristics change from one to another. In these conditions, it is necessary to know exactly the influence of the different experimental parameters (wavelength, spot size, ...) on the final data. These considerations are particularly true in heterogeneous materials as KDP crystals. Indeed the use of different laser beam sizes (from μm to hundreds μm) to plot laser damage probability curves had clearly shown that at 355nm in KDP, it is possible to exhibit a limit of irradiated area which permit to distinguish two different LIDT associated with two laser damage precursors densities. This prior result has put in evidence the influence of irradiated beam size in the discrimination of different kinds of defects in KDP. We present in this paper a systematic study of beam size effect in KDP for three different wavelengths: 355nm, 532nm and 1064nm. This study performed in 1:1 and R:1 mode will reveal precursors for each wavelength and their respective evolution under repetitive shots for small and large beams. This multi-parameters study will help us to highlight mechanisms involved in laser-induced damage in KDP crystal.
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激光束尺寸和波长对KH2PO4中LIDT测定及相关激光损伤前驱体密度的影响
在LMJ或NIF项目中,大型光学元件的激光电阻仍然是影响其性能和维护成本的重要因素。由于实际原因,LIDT研究通常是用小样本和桌面激光器进行的,其特性从一个到另一个变化。在这种情况下,有必要确切地知道不同的实验参数(波长、光斑大小等)对最终数据的影响。这些考虑在像KDP晶体这样的非均相材料中尤其正确。事实上,使用不同的激光束尺寸(从μm到数百μm)来绘制激光损伤概率曲线已经清楚地表明,在355nm的KDP中,有可能显示出一个辐照面积的限制,允许区分与两种激光损伤前体密度相关的两种不同的LIDT。这一先前的结果证明了辐照光束尺寸对KDP中不同类型缺陷的识别的影响。本文系统地研究了355nm、532nm和1064nm三种不同波长下KDP的光束尺寸效应。在1:1和R:1模式下进行的研究将揭示每个波长的前体及其在小光束和大光束重复拍摄下的各自演变。这一多参数的研究将有助于我们揭示激光诱导KDP晶体损伤的机制。
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