Two-Photon Absorption of Nonchain HF Laser Radiation in Germanium Single Crystals

被引:0
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作者
E. E. Alekseev
S. Yu. Kazantsev
I. G. Kononov
V. E. Rogalin
K. N. Firsov
机构
[1] National Research Center Kurchatov Institute,Prokhorov General Physics Institute
[2] Russian Academy of Sciences,undefined
[3] National Center of Laser Systems and Complexes Astrophizika,undefined
[4] Tver State University,undefined
[5] National Research Nuclear University Moscow Engineering Physics Institute,undefined
来源
Optics and Spectroscopy | 2018年 / 124卷
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摘要
Some results of experimental and numerical studies on the transmission of a nonchain high-frequency (HF) laser beam through germanium (Ge) single crystals of differing thickness and specific resistance are presented. Based on the experimental data for the HF(DF) lasing spectrum, the coefficient of two-photon absorption in germanium has been estimated as K2 = 55 ± 10 cm/GW at λ = 2.8 μm. The results are in good agreement with theory. The developed experimental data-processing software has enabled the numerical study of the transmission of a high-power beam with λ = 2.6–3 μm through Ge at any laser-pulse-impact moment. It has been shown that thin germanium coatings can efficiently smoothen the distribution of energy over the beam aperture for high-power laser radiation with λ = 2.6–4 μm.
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页码:821 / 825
页数:4
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