High Accuracy Method for Magnetohydrodynamics System in Elsässer Variables

Nicholas Wilson; Alexander Labovsky; Catalin Trenchea

doi:10.1515/cmam-2014-0023

Published by De Gruyter August 29, 2014

High Accuracy Method for Magnetohydrodynamics System in Elsässer Variables

Nicholas Wilson , Alexander Labovsky and Catalin Trenchea

From the journal Computational Methods in Applied Mathematics

https://doi.org/10.1515/cmam-2014-0023

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Abstract

A method has been developed recently by the third author, that allows for decoupling of the evolutionary full magnetohydrodynamics (MHD) system in the Elsässer variables. The method entails the implicit discretization of the subproblem terms and the explicit discretization of coupling terms, and was proven to be unconditionally stable. In this paper we build on that result by introducing a high-order accurate deferred correction method, which also decouples the MHD system. We perform the full numerical analysis of the method, proving the unconditional stability and second order accuracy of the two-step method. We also use a test problem to verify numerically the claimed convergence rate.

Keywords: Magnetohydrodynamics; Partitioned Methods; Deferred Correction; Elsässer Variables

MSC: 65M12; 65Z05; 76W05

Funding source: Air Force grant

Award Identifier / Grant number: FA9550-12-1-0191

Received: 2014-5-3

Revised: 2014-7-23

Accepted: 2014-8-24

Published Online: 2014-8-29

Published in Print: 2015-1-1

High Accuracy Method for Magnetohydrodynamics System in Elsässer Variables

Abstract

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