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Article Dans Une Revue Journal of Numerical Mathematics Année : 2017

Exponential decay of a finite volume scheme to the thermal equilibrium for drift–diffusion systems

Résumé

In this paper, we study the large–time behavior of a numerical scheme discretizing drift– diffusion systems for semiconductors. The numerical method is finite volume in space, implicit in time, and the numerical fluxes are a generalization of the classical Scharfetter– Gummel scheme which allows to consider both linear or nonlinear pressure laws. We study the convergence of approximate solutions towards an approximation of the thermal equilibrium state as time tends to infinity, and obtain a decay rate by controlling the discrete relative entropy with the entropy production. This result is proved under assumptions of existence and uniform-in-time $L ∞$ estimates for numerical solutions, which are then discussed. We conclude by presenting some numerical illustrations of the stated results.
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Dates et versions

hal-01250709 , version 1 (05-01-2016)
hal-01250709 , version 2 (30-08-2018)

Identifiants

Citer

Marianne Chatard Bessemoulin-Chatard, Claire Chainais-Hillairet. Exponential decay of a finite volume scheme to the thermal equilibrium for drift–diffusion systems. Journal of Numerical Mathematics, 2017, 25 (3), pp.147-168. ⟨10.1515/jnma-2016-0007⟩. ⟨hal-01250709v2⟩
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