等离子体通道中短激光脉冲的非对称自相位调制与压缩

Asymmetric self-phase modulation and compression of short laser pulses in plasma channels.

作者信息

Gordon D F, Hafizi B, Hubbard R F, Peñano J R, Sprangle P, Ting A

机构信息

Icarus Research, Inc, PO Box 30780, Bethesda, Maryland 20824-0780, USA.

出版信息

Phys Rev Lett. 2003 May 30;90(21):215001. doi: 10.1103/PhysRevLett.90.215001.

DOI:10.1103/PhysRevLett.90.215001

PMID:12786561

Abstract

A relativistically intense femtosecond laser pulse propagating in a plasma channel undergoes dramatic photon deceleration while propagating a distance on the order of a dephasing length. The deceleration of photons is localized to the back of the pulse and is accompanied by compression and explosive growth of the ponderomotive potential. Fully explicit particle-in-cell simulations are applied to the problem and are compared with ponderomotive guiding center simulations. A numerical Wigner transform is used to examine local frequency shifts within the pulse and to suggest an experimental diagnostic of plasma waves inside a capillary.

摘要

在等离子体通道中传播的相对论强度飞秒激光脉冲，在传播一个去相位长度量级的距离时会经历显著的光子减速。光子的减速局限于脉冲的后部，并伴随着有质动力势的压缩和爆发式增长。将全显式粒子模拟应用于该问题，并与有质动力引导中心模拟进行比较。使用数值维格纳变换来研究脉冲内的局部频移，并提出一种对毛细管内等离子体波的实验诊断方法。

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等离子体通道中短激光脉冲的非对称自相位调制与压缩

Asymmetric self-phase modulation and compression of short laser pulses in plasma channels.

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