Turbulence-Induced Instabilities in EP and QGP
Martin Kirakosyan, Andrei Leonidov, Berndt Muller
TL;DR
This paper investigates how turbulence causes instabilities in ultrarelativistic QED plasma, revealing that nonlinear turbulent Landau damping can lead to system instabilities under certain conditions.
Contribution
It introduces a novel analysis of polarization properties and instability mechanisms in turbulent ultrarelativistic QED plasma.
Findings
Sign of nonlinear turbulent Landau damping indicates instability of spacelike modes.
Large turbulent fields can cause actual system instabilities.
Turbulence significantly affects plasma stability and polarization characteristics.
Abstract
Polarization properties of turbulent stochastically inhomogeneous ultrarelativistic QED plasma are studied. It is shown that the sign of nonlinear turbulent Landau damping corresponds to an instability of the spacelike modes and, for sufficiently large turbulent fields, to an actual instability of a system.
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Taxonomy
TopicsFluid Dynamics and Turbulent Flows · Nonlinear Waves and Solitons · Optical Network Technologies