English

Action Principles for Extended MHD Models

Plasma Physics 2015-06-22 v1

Abstract

The general, non-dissipative, two-fluid model in plasma physics is Hamiltonian, but this property is sometimes lost or obscured in the process of deriving simplified (or reduced) two-fluid or one-fluid models from the two-fluid equations of motion. To ensure that the reduced models are Hamiltonian, we start with the general two-fluid action functional, and make all the approximations, changes of variables, and expansions directly within the action context. The resulting equations are then mapped to the Eulerian fluid variables using a novel nonlocal Lagrange-Euler map. Using this method, we recover L\"{u}st's general two-fluid model, extended MHD, Hall MHD, and electron MHD from a unified framework. The variational formulation allows us to use Noether's theorem to derive conserved quantities for each symmetry of the action.

Keywords

Cite

@article{arxiv.1407.3884,
  title  = {Action Principles for Extended MHD Models},
  author = {I. Keramidas Charidakos and M. Lingam and P. J. Morrison and R. L. White and A. Wurm},
  journal= {arXiv preprint arXiv:1407.3884},
  year   = {2015}
}

Comments

13 pages

R2 v1 2026-06-22T05:04:10.839Z