Compression of high-power KrF laser pulse by backward Raman scattering using focused geometry

Kuwahara K.; Matsumoto Y.; Owadano Y.; Takahashi E.

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Compression of high-power KrF laser pulse by backward Raman scattering using focused geometry

机译：使用聚焦几何体通过反向拉曼散射压缩大功率KrF激光脉冲

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We are working on the generation of the high-power UV pulse by backward Raman pulse amplification. This report deals with the generation of the high-power backward first Stokes light using a simple focusing geometry. The high-power Stokes light, which grows from spontaneous scattered light in the focal region, can be obtained by focusing the high-energy KrF pump pulse into a Raman cell filled with methane gas. The intensity of the pump pulse increases significantly near the focus. This pulse produces a serious effect of the nonlinear refractive index. We mixed xenon gas into the Raman medium to compensate for this effect. As a result, a stable generation of the high-power single backward first Stokes light can be obtained.

机译：我们正在努力通过反向拉曼脉冲放大来产生高功率紫外线脉冲。该报告使用简单的聚焦几何图形处理大功率后向第一道斯托克斯光的产生。通过将高能KrF泵浦脉冲聚焦到充满甲烷气体的拉曼电池中，可以获得从焦点区域中的自发散射光产生的高功率斯托克斯光。在焦点附近，泵浦脉冲的强度显着增加。该脉冲严重影响了非线性折射率。我们将氙气混合到拉曼介质中以补偿这种影响。结果，可以获得大功率的单向后第一斯托克斯光的稳定产生。

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《Laser and Particle Beams》 |1999年第2期|共6页
作者
Kuwahara K.; Matsumoto Y.; Owadano Y.; Takahashi E.;
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正文语种 eng
中图分类光学;
关键词
Excimer lasers; High power lasers; Laser pulses; Raman scattering; Ultraviolet radiation; Spontaneous emission; Optical pumping; Refractive index; Nonlinear optics; Light scattering; Xenon; Krypton fluoride lasers; Laser pulse compression; Backward Raman pulse amplification;

机译：准分子激光器;高功率激光器;激光脉冲;拉曼散射;紫外辐射;自发发射;光泵浦;折射率;非线性光学;光散射;氙;氟化rypto激光器;激光脉冲压缩;向后拉曼脉冲放大;
入库时间 2022-08-18 13:05:17

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1. Compression of high-power KrF laser pulse by backward Raman scattering using focused geometry [J] . Kuwahara K., Matsumoto Y., Owadano Y., Laser and Particle Beams . 1999,第2期

机译：使用聚焦几何体通过反向拉曼散射压缩大功率KrF激光脉冲
2. Compression of high power KrF laser pulse by backward Raman amplification [J] . E. Takahashi, Y. Matsumoto, I. Matsushima Fusion Engineering and Design . 1999,第期

机译：向后拉曼放大压缩高功率KrF激光脉冲
3. Compression of Ultraintense Laser Pulses in Inhomogeneous Plasma upon Backward Stimulated Raman Scattering [J] . A. A. Andreev, V. G. Bespalov, E. V. Ermolaeva, Optics and Spectroscopy . 2007,第1期

机译：向后受激拉曼散射对不均匀等离子体中超高强度激光脉冲的压缩
4. Backward Raman pulse compression of KrF laser using transient Raman scattering for the generation of high power and high-energy UV laser pulse [C] . E. Takahashi, Y. Matsumoto, I. Okuda, IEEE Conference on Lasers and Electro-Optics . 1999

机译：使用瞬态拉曼散射进行高功率和高能紫外线激光脉冲的瞬态拉曼散射的后旋拉曼脉冲压缩
5. Ultrashort ultraintense laser pulses by Stimulated Raman Backscattering amplification and compression in plasma. [D] . Li, Shuanglei. 2013

机译：通过在等离子体中进行拉曼反向散射放大和压缩来产生超短超强激光脉冲。
6. All-Fiber Tunable Pulsed 1.7 μm Fiber Lasers Based on Stimulated Raman Scattering of Hydrogen Molecules in Hollow-Core Fibers [O] . Wenxi Pei, Hao Li, Wei Huang, 2021

机译：全纤维可调脉冲1.7μm光纤激光器基于刺激拉曼散射在空心芯纤维中的氢分子散射
7. Laser Pulse Compression and Amplification by Stimulated Backward Raman Scattering of Ba(NO3)2 and CaCO3 Crystals [O] . Kyoichi DEKI, Fumiaki MATSUOKA, Kazuyoku TEI, 2003

机译：通过刺激Ba（NO3）2和CaCO3晶体的刺激后拉锯齿散射激光脉冲压缩和扩增
8. Backward Raman Gain and Pulse Compression of KrF Laser Radiation Scattered by CH sub 4 [R] . Murray, J. R., Goldhar, J., Szoeke, A. 1977

机译：CH sub 4散射的KrF激光辐射的后向拉曼增益和脉冲压缩

Compression of high-power KrF laser pulse by backward Raman scattering using focused geometry

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