Finite difference modeling of solitons induced by a density hump in a plasma multi-fluid

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DOI10.1016/S0378-4754(00)00310-4zbMath0987.76065MaRDI QIDQ5937525

S. Baboolal

Publication date: 27 June 2002

Published in: Mathematics and Computers in Simulation (Search for Journal in Brave)

zbMATH Keywords

time evolution density hump ideal gases Lax-Wendroff type semi-implicit scheme nonlinear one-dimensional unmagnetized plasma multi-fluid equations soliton-boundary reflections two-soliton collisions

Mathematics Subject Classification ID

Finite difference methods applied to problems in fluid mechanics (76M20) Ionized gas flow in electromagnetic fields; plasmic flow (76X05)

Related Items (8)

A blended continuous-discontinuous finite element method for solving the multi-fluid plasma model ⋮ Entropy stable numerical schemes for two-fluid plasma equations ⋮ Entropy stable discontinuous Galerkin schemes for two-fluid relativistic plasma flow equations ⋮ A multispecies, multifluid model for laser-induced counterstreaming plasma simulations ⋮ Robust finite volume schemes for two-fluid plasma equations ⋮ Two-scale numerical solution of the electromagnetic two-fluid plasma-Maxwell equations: shock and soliton simulation ⋮ Numerical integration of the plasma fluid equations with a modification of the second-order Nessyahu --- Tadmor central scheme and soliton modeling ⋮ Fully-implicit finite volume method for the ideal two-fluid plasma model

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