Vlasov models for kinetic Weibel-type instabilities - Université de Lorraine
Journal Articles Journal of Plasma Physics Year : 2017

Vlasov models for kinetic Weibel-type instabilities

A. Ghizzo
M. Sarrat
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Abstract

The Weibel instability, driven by a temperature anisotropy, is investigated within different kinetic descriptions based on the semi-Lagrangian full kinetic and rela-tivistic Vlasov-Maxwell model, on the multi-stream approach, which is based on a Hamiltonian reduction technique, and finally, with the full pressure tensor fluid-type description. Dispersion relations of the Weibel instability are derived using the three different models. A qualitatively different regime is observed in Vlasov numerical experiments depending on the excitation of a longitudinal plasma electric field driven initially by the combined action of the stream symmetry breaking and weak relativistic effects, in contrast with the existing theories of the Weibel instability based on their purely transverse characters. The multistream model offers an alternate way to simulate easily the coupling with the longitudinal electric field and particularly the nonlinear regime of saturation, making numerical experiments more tractable, when only a few moments of the distribution are considered. Thus a numerical comparison between the reduced Hamiltonian model (the multi-stream model) and full kinetic (relativistic) Vlasov simulations has been investigated in that regime. Although nonlinear simulations of the fluid model , including the dynamics of the pressure tensor, have not been carried out here, the model is strongly relevant even in the three dimensional case.
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Dates and versions

hal-01791833 , version 1 (20-05-2018)

Identifiers

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A. Ghizzo, M. Sarrat, D. Del Sarto. Vlasov models for kinetic Weibel-type instabilities. Journal of Plasma Physics, 2017, 83 (1), pp.705830101. ⟨10.1017/S0022377816001215⟩. ⟨hal-01791833⟩
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