Abstract
This paper deals with a numerical simulation and theoretical investigation of the behavior of plasma flows produced when injecting a laser beam into a target for inertial thermonuclear fusion and absorbing laser radiation in the target internal cavity. Results of two-dimensional numerical calculation are presented for laser beam interaction with the sub critical plasma contained in the gap between two coaxial shells of a laser greenhouse target. The calculations confirm the possibility of initiating a supersonic wave of electron heat conduction in the absorber of the laser greenhouse target.
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