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Dynamics of laser plasma convective plume in high pressure xenon

M. A. Kоtov, S Yu Lavrentyev, N. G. Solovyov, A. N. Shemyakin, M. Yu. Yakimov

2020Journal of Physics Conference Series10 citationsDOIOpen Access PDF

Abstract

Abstract This paper presents the results of numerical simulation of convective plume pulsations from a concentrated heat source equivalent to a continuous optical discharge (COD) in high pressure xenon compared to originally obtained experimental results. Simulated dynamic distributions of temperature, density and velocity of the gas around small spheroidal heat release zone are obtained, showing the process of formation of toroidal vortices in the convection zone, leading to the appearance of pulsations. The simulation results are qualitatively and quantitatively consistent with previously obtained experimental data.

Topics & Concepts

XenonPlumeConvectionMechanicsPlasmaVortexMaterials scienceConvective flowLaserPanachePhysicsComputational physicsOpticsAtomic physicsMeteorologyNuclear physicsCombustion and flame dynamicsLaser-induced spectroscopy and plasmaLaser Design and Applications
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