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Collision-less shocks and solitons in dense laser-produced Fermi plasma

Jyotirmoy Goswami, Swarniv Chandra, Jit Sarkar, S. R. Bhadra Chaudhuri, Basudev Ghosh

2020Laser and Particle Beams41 citationsDOI

Abstract

Abstract The theoretical investigation of shocks and solitary structures in a dense quantum plasma containing electrons at finite temperature, nondegenerate cold electrons, and stationary ions has been carried out. A linear dispersion relation is derived for the corresponding electron acoustic waves. The solitary structures of small nonlinearity have been studied by using the standard reductive perturbation method. We have considered collisions to be absent, and the shocks arise out of viscous force. Furthermore, with the help of a standard reductive perturbation technique, a KdV–Burger equation has been derived and analyzed numerically. Under limiting cases, we have also obtained the KdV solitary profiles and studied the parametric dependence. The results are important in explaining the many phenomena of the laser–plasma interaction of dense plasma showing quantum effects.

Topics & Concepts

PhysicsPlasmaKorteweg–de Vries equationElectronPerturbation (astronomy)Nonlinear systemLimitingDispersion relationIonLaserQuantumAtomic physicsQuantum electrodynamicsIonizationQuantum mechanicsEngineeringMechanical engineeringDust and Plasma Wave PhenomenaLaser-Plasma Interactions and DiagnosticsHigh-pressure geophysics and materials