Potential Vorticity in Magnetohydrodynamics
Abstract
A version of Noether's second theorem using Lagrange multipliers is used to investigate fluid relabelling symmetries conservation laws in magnetohydrodynamics (MHD). We obtain a new generalized potential vorticity type conservation equation for MHD which takes into account entropy gradients and the force on the plasma due to the current and magnetic induction . This new conservation law for MHD is derived by using Noether's second theorem in conjunction with a class of fluid relabelling symmetries in which the symmetry generator for the Lagrange label transformations is non-parallel to the magnetic field induction in Lagrange label space. This is associated with an Abelian Lie pseudo algebra and a foliated phase space in Lagrange label space. It contains as a special case Ertel's theorem in ideal fluid mechanics. An independent derivation shows that the new conservation law is also valid for more general physical situations.
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@article{arxiv.1403.3133,
title = {Potential Vorticity in Magnetohydrodynamics},
author = {G. M. Webb and R. L. Mace},
journal= {arXiv preprint arXiv:1403.3133},
year = {2019}
}
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