通过等离子体尾波场中的电子密度调制实现激光频率上移的演示。

Demonstration of laser-frequency upshift by electron-density modulations in a plasma wakefield.

作者信息

Kando M, Fukuda Y, Pirozhkov A S, Ma J, Daito I, Chen L-M, Esirkepov T Zh, Ogura K, Homma T, Hayashi Y, Kotaki H, Sagisaka A, Mori M, Koga J K, Daido H, Bulanov S V, Kimura T, Kato Y, Tajima T

机构信息

Advanced Photon Research Center, JAEA, 8-1 Umemidai, Kizugawa, Kyoto 619-0215, Japan.

出版信息

Phys Rev Lett. 2007 Sep 28;99(13):135001. doi: 10.1103/PhysRevLett.99.135001. Epub 2007 Sep 24.

DOI:10.1103/PhysRevLett.99.135001

PMID:17930598

Abstract

In a plasma wake wave generated by a high power laser, modulations of the electron density take the shape of paraboloidal dense shells, moving almost at the speed of light. A counterpropagating laser pulse is partially reflected from the shells, acting as relativistic flying mirrors, producing a time-compressed frequency-multiplied pulse due to the double Doppler effect. The counterpropagating laser pulse reflection from the plasma wake wave accompanied by its frequency multiplication (with a factor from 50 to 114) was detected in our experiment.

摘要

在高功率激光产生的等离子体尾波中，电子密度调制呈现抛物面密集壳层的形状，几乎以光速移动。反向传播的激光脉冲从这些壳层部分反射，这些壳层充当相对论性飞行镜，由于双多普勒效应产生一个时间压缩的倍频脉冲。在我们的实验中检测到了反向传播的激光脉冲从等离子体尾波的反射及其频率倍增（倍增因子为50至114）。

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通过等离子体尾波场中的电子密度调制实现激光频率上移的演示。

Demonstration of laser-frequency upshift by electron-density modulations in a plasma wakefield.

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