Non-linear materials for efficient mid-IR few cycle pulse compression

Laser-Induced Damage in Optical Materials 2021 Pub Date : 2021-10-15 DOI:10.1117/12.2602339
B. Kiss, R. Flender, M. Kurucz, T. Somoskői, É. Cormier
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Abstract

A simple and cheap technique for post-compression of mid-IR laser pulses relies on nonlinear spectral broadening via SPM in mm-thick optical windows (plates) followed by recompression. Efficient broadening requires peak intensities of ~hundred GW/cm2, which in case of high average power (>10W) drivers puts serious requirements on the used optical materials’ thermal properties, purity, homogeneity, surface quality and LIDT of coatings. Several materials (YAG, fluorides, KBr, Si, ZnSe, ZnS) were tested with 3.2 µm, 13W (130 µJ, 100 kHz), 48 fs pumping. Measured nonlinear absorption, wavefront distortion, spectral broadening and long-term survival as a function of intensity will be shown.
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高效中红外少周期脉冲压缩的非线性材料
一种简单而廉价的中红外激光脉冲后压缩技术依赖于在mm厚的光学窗(板)中通过SPM进行非线性光谱展宽,然后再压缩。高效展宽要求峰值强度达到~ 100 GW/cm2,在高平均功率(bbb10w)的情况下,这对所用光学材料的热性能、纯度、均匀性、表面质量和涂层的LIDT提出了严格的要求。对几种材料(YAG、氟化物、KBr、Si、ZnSe、ZnS)在3.2µm、13W(130µJ、100 kHz)、48 fs的泵浦下进行了测试。测量的非线性吸收,波前畸变,光谱展宽和长期生存作为强度的函数将显示。
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Laser-Induced Damage in Optical Materials 2021
Laser-Induced Damage in Optical Materials 2021
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Front Matter: Volume 11910 Practical guide to machine learning for managing Laser Damage Specific mechanisms of bulk and surface absorption of ultrashort mid-infrared laser pulses in optical materials Mid-IR high-order multiphoton absorption and nonlinear refraction in GaP, ZnSe, GaSe, and ZGP crystals Non-linear materials for efficient mid-IR few cycle pulse compression
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