用于研究光学材料中与激光损伤相关的瞬态材料变化的泵浦和探针损伤试验

R. Negres, M. Feit, P. Demange, J. Bude, S. Demos
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引用次数: 7

摘要

在透明介质材料中,激光诱导击穿与极端局部温度和压力条件的产生有关。在这项工作中,我们进行了泵浦和探针损伤测试实验,以研究熔融二氧化硅和DKDP材料中受限激光能量沉积后基体材料的瞬态吸收的演变。具体来说,我们测量了在泵浦和探针脉冲之间的空间重叠区域中观察到的损伤位点的大小与探针的时间延迟和能量的关系。这项原理验证实验工作的结果证实,在损坏事件期间产生的极端条件下的材料变化包括瞬态光学吸收。此外,我们发现即使在相同的激发条件下,DKDP和SiO2的诱导吸收弛豫时间也非常不同,分别为100 ns和100 μs。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pump and probe damage testing for investigation of transient material modifications associated with laser damage in optical materials
Laser-induced breakdown in the bulk of transparent dielectric materials is associated with the generation of extreme localized conditions of temperatures and pressures. In this work, we perform pump and probe damage testing experiments to investigate the evolution of transient absorption by the host material arising from modifications following confined laser energy deposition in fused silica and DKDP materials. Specifically, we measure the size of the damage sites observed in the region of spatial overlap between the pump and probe pulses versus probe time delay and energy. Results of this proof-of-principle experimental work confirm that material modifications under extreme conditions created during a damage event include transient optical absorption. In addition, we found that the relaxation times of the induced absorption are very distinct for DKDP and SiO2 even under identical excitation conditions, on the order of 100 ns and 100 μs, respectively.
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