Applied and Interdisciplinary Mathematics Seminar

University of Michigan

Winter 2006
Friday, 7 April, 3:10-4:00pm, 1084 East Hall

A new numerical solver for ideal magnetohydrodynamics

Christian Klingenberg

University of Wuerzburg

Abstract
We present a relaxation system for ideal MHD, from which one may derive approximate Riemann solvers with three or seven waves. The solvers satisfy a discrete entropy inequality, and preserve positivity of density and pressure under a subcharacteristic condition. We present standard one dimensional tests, and demonstrate that the solvers can handle shear phenomena and cases with thermal pressure much smaller than magnetic pressure.

Abstract

We present a relaxation system for ideal MHD, from which one may derive approximate Riemann solvers with three or seven waves. The solvers satisfy a discrete entropy inequality, and preserve positivity of density and pressure under a subcharacteristic condition. We present standard one dimensional tests, and demonstrate that the solvers can handle shear phenomena and cases with thermal pressure much smaller than magnetic pressure.

Applied and Interdisciplinary Mathematics Seminar

University of Michigan

Winter 2006 Friday, 7 April, 3:10-4:00pm, 1084 East Hall

A new numerical solver for ideal magnetohydrodynamics

Christian Klingenberg

University of Wuerzburg

Winter 2006
Friday, 7 April, 3:10-4:00pm, 1084 East Hall