GUISSET, Sébastien; BRULL, Stéphane; D’HUMIÈRES, Emmanuel; DUBROCA, Bruno

doi:10.1051/m2an/2016079

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GUISSET, Sébastien
Laboratoire de Mathématiques de Versailles [LMV]

BRULL, Stéphane
Institut de Mathématiques de Bordeaux [IMB]

D’HUMIÈRES, Emmanuel
Centre d'Etudes Lasers Intenses et Applications [CELIA]

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ESAIM: Mathematical Modelling and Numerical Analysis. 2017, vol. 51, n° 5, p. 1805-1826

EDP Sciences

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This work is devoted to the derivation of an asymptotic-preserving scheme for the electronic M1 model in the diffusive regime. The case without electric field and the homogeneous case are studied. The derivation of the scheme is based on an approximate Riemann solver where the intermediate states are chosen consistent with the integral form of the approximate Riemann solver. This choice can be modified to enable the derivation of a numerical scheme which also satisfies the admissible conditions and is well-suited for capturing steady states. Moreover, it enjoys asymptotic-preserving properties and handles the diffusive limit recovering the correct diffusion equation. Numerical tests cases are presented, in each case, the asymptotic-preserving scheme is compared to the classical HLL [A. Harten, P.D. Lax and B. Van Leer, SIAM Rev. 25 (1983) 35–61.] scheme usually used for the electronic M1 model. It is shown that the new scheme gives comparable results with respect to the HLL scheme in the classical regime. On the contrary, in the diffusive regime, the asymptotic-preserving scheme coincides with the expected diffusion equation, while the HLL scheme suffers from a severe lack of accuracy because of its unphysical numerical viscosity.< Réduire

Mots clés en anglais

Electronic M1moment model

approximate Riemann solvers

Godunov type schemes

asymptotic preserving schemes

diffusive limit

plasma physics

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Asymptotic-preserving well-balanced scheme for the electronic M1 model in the diffusive limit: Particular cases

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