Scaling laws for laser driven exploding pusher targets

1 May 1981

journal article
Published by IOP Publishing in Plasma Physics

Vol. 23 (5) , 435-447
https://doi.org/10.1088/0032-1028/23/5/005

Abstract

An analytic model based on shock waves is used to describe the maximum density rho _F, maximum temperature T_F and minimum radius R_F obtained in the laser driven implosion of a gas filled spherical shell target of shell thickness Delta T, shell radius R and initial gas density rho ₁. The scaling behaviour rho _F approximately rho ₁²5/, rho _F^R_f approximately rho ₁³5/R and T_F approximately ( alpha E₀/M) rho ₁^-25/, is obtained, where E₀ is the laser energy, M is the shell mass, and alpha is the hydrodynamically useful fraction of the laser energy. Instantaneous uniform heating of the shell is assumed in order to describe implosions of the 'exploding pusher' type.

Keywords

SHOCK WAVE

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