Author:
FALLE S. A. E. G.,KOMISSAROV S. S.
Abstract
In recent years, numerical solutions of the equations of compressible magnetohydrodynamic
(MHD) flows have been found to contain intermediate shocks
for certain kinds of problems. Since these results would seem to be in conflict with
the classical theory of MHD shocks, they have stimulated attempts to reexamine
various aspects of this theory, in particular the role of dissipation. In this paper,
we study the general relationship between the evolutionary conditions for discontinuous
solutions of the dissipation-free system and the existence and uniqueness
of steady dissipative shock structures for systems of quasilinear conservation laws
with a concave entropy function. Our results confirm the classical theory. We also
show that the appearance of intermediate shocks in numerical simulations can be
understood in terms of the properties of the equations of planar MHD, for which
some of these shocks turn out to be evolutionary. Finally, we discuss ways in which
numerical schemes can be modified in order to avoid the appearance of intermediate
shocks in simulations with such symmetry.
Publisher
Cambridge University Press (CUP)
Cited by
81 articles.
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