V. F. Tishkin

TL;DR: In this paper, the results of the latest experiments on laser pulse interaction with plane foam targets performed on Nd-laser facilities “ABC” in the ENEA-EURATOM Association (Frascati, Italy) and MISHEN in the Troitsk Institute of Innovation Thermonuclear Investigations (TRINITI, Troitskov Russia) are presented and analyzed, and the dynamics of absorbing region formation and velocity of energy transfer process versus the parameters of porous matter are found.

TL;DR: The laser prepulse effect on the thermal smoothing of nonuniformities of target illumination is studied by means of a two-dimensional Lagrangian hydrodynamics simulation, based on the parameters of a real experiment, which demonstrates a substantial smoothing effect for an optimum delay between the prepulse and the main heating laser pulse.

TL;DR: The ATLANT-C program developed for the two-dimensional (2D) simulation of problems of Lagrangian gas dynamics is described in this paper, where the difference scheme of gas dynamics with an increased number of thermodynamic degrees of freedom used in the program preserves the plane, cylindrical, and spherical symmetry of the one-dimensional flows.

TL;DR: In this paper, the development of hydrodynamic instability (HDI) in laser targets is studied by means of 2D numerical code "ATLANT" and the scaling of HDI development for the condition of DELFIN-1 laser setup experiments is derived.