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Shock waves and rarefaction waves in magnetohydrodynamics. Part 1. A model system

Published online by Cambridge University Press:  01 October 1997

R. S. MYONG
Affiliation:
Present address: NASA Goddard Space Flight Center, Mail Stop 930, Greenbelt, Maryland 20771, USA. W. M. Keck Foundation Laboratory for Computational Fluid Dynamics, Department of Aerospace Engineering, University of Michigan, Ann Arbor, Michigan 48109, USA
P. L. ROE
Affiliation:
W. M. Keck Foundation Laboratory for Computational Fluid Dynamics, Department of Aerospace Engineering, University of Michigan, Ann Arbor, Michigan 48109, USA

Abstract

The present study consists of two parts. Here in Part 1, a model set of conservationlaws exactly preserving the MHD hyperbolic singularities is investigated to develop the general theory of the nonlinear evolution of MHD shock waves. Great emphasis is placed on shock admissibility conditions. By developing the viscosity admissibility condition, it is shown that the intermediate shocks are necessary to ensure that the planar Riemann problem is well-posed. In contrast, it turns out that the evolutionary condition is inappropriate for determining physically relevant MHD shocks. In the general non-planar case, by studying canonical cases, we show that the solution of the Riemann problem is not necessarily unique – in particular, that it depends not only on reference states but also on the associated internal structure. Finally, the stability of intermediate shocks is discussed, and a theory of their nonlinear evolution is proposed. In Part 2, the theory of nonlinear waves developed for the model is applied to the MHD problem. It is shown that the topology of the MHD Hugoniot and wave curves is identical to that of the model problem.

Type
Research Article
Copyright
1997 Cambridge University Press

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