Weakly nonlinear surface waves in magnetohydrodynamics - Archive ouverte HAL
Article Dans Une Revue Asymptotic Analysis Année : 2021

Weakly nonlinear surface waves in magnetohydrodynamics

Résumé

This work is devoted to the construction of weakly nonlinear, highly oscillating, current vortex sheet solutions to the incompressible magnetohydrodynamics equations. Current vortex sheets are piecewise smooth solutions to the incompressible magnetohydrodynamics equations that satisfy suitable jump conditions for the velocity and magnetic field on the (free) discontinuity surface. In this work, we complete an earlier work by Ali and Hunter and construct approximate solutions at any arbitrarily large order of accuracy to the free boundary problem in three space dimensions when the initial discontinuity displays high frequency oscillations. As evidenced in earlier works, high frequency oscillations of the current vortex sheet give rise to `surface waves' on either side of the sheet. Such waves decay exponentially in the normal direction to the current vortex sheet and, in the weakly nonlinear regime that we consider here, their leading amplitude is governed by a nonlocal Hamilton-Jacobi type equation known as the `HIZ equation' (standing for Hamilton-Il'insky-Zabolotskaya) in the context of Rayleigh waves in elastodynamics. The main achievement of our work is to develop a systematic approach for constructing arbitrarily many correctors to the leading amplitude. Based on a suitable duality formula, we exhibit necessary and sufficient solvability conditions for the corrector equations that need to be solved iteratively. The verification of these solvability conditions is based on a combination of mere algebra and arguments of combinatorial analysis. The construction of arbitrarily many correctors enables us to produce infinitely accurate approximate solutions to the free boundary problem. Eventually, we show that the rectification phenomenon exhibited by Marcou in the context of Rayleigh waves does not arise in the same way for the current vortex sheet problem.
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Dates et versions

hal-01816402 , version 1 (15-06-2018)
hal-01816402 , version 2 (29-06-2018)

Identifiants

Citer

Olivier Pierre, Jean-François Coulombel. Weakly nonlinear surface waves in magnetohydrodynamics. Asymptotic Analysis, 2021, 123 (3-4), pp.367-401. ⟨10.3233/ASY-201638⟩. ⟨hal-01816402v2⟩
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