等离子体中电子加速与超短高强度激光脉冲的传播

Electron acceleration and the propagation of ultrashort high-intensity laser pulses in plasmas.

作者信息

Wang X, Krishnan M, Saleh N, Wang H, Umstadter D

机构信息

Center for Ultrafast Optical Science, University of Michigan, Ann Arbor, Michigan 48109-2099, USA.

出版信息

Phys Rev Lett. 2000 Jun 5;84(23):5324-7. doi: 10.1103/PhysRevLett.84.5324.

DOI:10.1103/PhysRevLett.84.5324

PMID:10990934

Abstract

Reported are interactions of high-intensity laser pulses ( lambda = 810 nm and I</=3x10(18) W/cm(2)) with plasmas in a new parameter regime, in which the pulse duration ( tau = 29 fs) corresponds to 0. 6-2.6 plasma periods. Relativistic filamentation is observed to cause laser-beam breakup and scattering of the beam out of the vacuum propagation angle. A beam of megaelectronvolt electrons with divergence angle as small as 1 degrees is generated in the forward direction, which is correlated to the growth of the relativistic filamentation. Raman scattering, however, is found to be much less than previous long-pulse results.

摘要

报道了高强度激光脉冲（波长λ = 810纳米，强度I≤3×10¹⁸瓦/平方厘米）与处于新参数范围的等离子体的相互作用，其中脉冲持续时间（τ = 29飞秒）相当于0.6 - 2.6个等离子体周期。观察到相对论性丝化导致激光束破裂以及光束偏离真空传播角散射。在向前方向产生了发散角小至1度的兆电子伏特电子束，这与相对论性丝化的发展相关。然而，发现拉曼散射比先前长脉冲的结果要小得多。

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等离子体中电子加速与超短高强度激光脉冲的传播

Electron acceleration and the propagation of ultrashort high-intensity laser pulses in plasmas.

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