啁啾和波长对紧密聚焦激光脉冲固体超快体改性的影响

Laser Damage Pub Date : 2021-10-12 DOI:10.1117/12.2603492
E. Mareev, E. Migal, F. Potemkin
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引用次数: 0

摘要

我们报告了当啁啾和调谐激光驱动器的波长从近红外到中红外时,紧密聚焦的高强度脉冲与固体体的激光物质相互作用行为的明显差异。在透明介质中,激光波长的变化导致加热机制的改变,从而导致等离子体形成阈值对中红外(4.6 μm)脉冲持续时间的依赖性较弱,而在近红外(1.24 μm)激发下影响显著。在半导体的情况下,电离机制仍然在多光子近似的框架内,但是中红外脉冲激发的光子阶数的增加导致离域过程和焦前区域损失的减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of chirp and wavelength for ultrafast bulk modification of solids with tightly focused laser pulses
We report on the clear difference in the behavior of laser-matter interaction of tightly focused high-intensity pulses with the bulk of solids when chirping and tuning the wavelength of the laser driver from near-IR to mid-IR. In transparent dielectrics, laser wavelength scaling leads to the change in the heating mechanism which, in turn, leads to a weak dependence of the plasma formation threshold on the pulse duration in mid-IR (4.6 μm) and a significant impact in the case of the near-IR (1.24 μm) excitation. In the case of semiconductors, the ionization mechanism remains within the framework of the multiphoton approximation, but an increase in the photon order for excitation by mid-IR pulses leads to a decrease in delocalization processes and losses in the prefocal region.
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