Studies of collisionless shockwaves using high-power laser pulses in laboratories

The remarkable experimental progress in the studies of collisionless shockwave（CS） in laboratories employing highpower lasers is briefly reviewed. The results show that CS can be generated in laser-produced plasmas due to the microturbulence associated with instabilities. CS is one of the most impor...

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Veröffentlicht in:	Chinese physics B 2015, Vol.24 (1), p.66-71
1. Verfasser:	袁大伟李玉同
Format:	Artikel
Sprache:	eng
Schlagworte:	Accessories Astronomical phenomena Astrophysics Instability Lasers Plasmas Shock waves Supernova remnants 冲击波大功率激光器天体物理学实验室激光脉冲碰撞等离子体高功率
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description	The remarkable experimental progress in the studies of collisionless shockwave（CS） in laboratories employing highpower lasers is briefly reviewed. The results show that CS can be generated in laser-produced plasmas due to the microturbulence associated with instabilities. CS is one of the most important astronomical phenomena. It has been found in supernova remnants（SNRs）, Sun–Earth space, etc. This paper focuses on CS in ways relevant to SNRs. Laboratory astrophysics（LA）, a new interdisciplinary frontier of astrophysics, plasma and laser physics, has developed rapidly in recent years. As an accessory to the astronomical observation, LA experimenters can closely study some astronomical events scaled-down to controllable phenomena.
doi_str_mv	10.1088/1674-1056/24/1/015204
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subjects	Accessories Astronomical phenomena Astrophysics Instability Lasers Plasmas Shock waves Supernova remnants 冲击波大功率激光器天体物理学实验室激光脉冲碰撞等离子体高功率
title	Studies of collisionless shockwaves using high-power laser pulses in laboratories
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