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Short-wavelength compressive instabilities in cosmic ray shocks and heat conduction flows

Published online by Cambridge University Press:  13 March 2009

G. P. Zank
Affiliation:
Department of Mathematics and Applied Mathematics, University of Natal, Durban, 4001, South Africa
J. F. Mckenzie
Affiliation:
Department of Mathematics and Applied Mathematics, University of Natal, Durban, 4001, South Africa

Abstract

In this paper we discuss the stability of three genetically similar non-uniform flows to compressive disturbances whose wavelengths are much shorter than the length scales characterizing the background flow. The results are relevant to theoretical models of cosmic ray shocks and solar wind type flows involving heat conduction. A JWKB expansion solution yields an equation which determines how the amplitudes of the perturbations may grow (or decay) as they propagate within such structures. It is shown that, in all three of the models considered, the perturbations exhibit spatial growth if the background flow is sufficiently supersonic and decelerating. The associated equations describing the evolution of the wave action are also studied with a view to deciding whether or not the behaviour of this attractive variable can provide an unambiguous answer to the question of stability. In the case of a shock transition dominated by heat conduction, it is shown that the effects of dissipative heating within the transition more than offset those of wave growth, with the result that wave amplification is accompanied by wave action decay. Therefore in general it would appear that the wave action equation alone cannot unambiguously settle stability questions.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1987

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