Asymptotic-Preserving Numerical Schemes for the Semiconductor Boltzmann Equation Efficient in the High Field Regime
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Publication:2847747
DOI10.1137/120886534zbMath1277.82047OpenAlexW1971642223MaRDI QIDQ2847747
Publication date: 11 September 2013
Published in: SIAM Journal on Scientific Computing (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/5dc36f1d53e2798bf59377abd669345d88510932
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Related Items (8)
Asymptotic-preserving schemes for multiscale physical problems ⋮ The Vlasov--Poisson--Fokker--Planck System with Uncertainty and a One-dimensional Asymptotic Preserving Method ⋮ Uniform Regularity for Linear Kinetic Equations with Random Input Based on Hypocoercivity ⋮ Isogeometric schemes in rarefied gas dynamics context ⋮ Numerical methods for kinetic equations ⋮ An asymptotic-preserving scheme for the semiconductor Boltzmann equation toward the energy-transport limit ⋮ An asymptotic-preserving scheme for the semiconductor Boltzmann equation with two-scale collisions: a splitting approach ⋮ A stochastic asymptotic-preserving scheme for the bipolar semiconductor Boltzmann-Poisson system with random inputs and diffusive scalings
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