Multiregion Relaxed MHD toroidal states with flow

POSTER

Abstract

The action-based formulation1 of Multiregion Relaxed MHD (MRxMHD) encompasses both steady-flow statics, and dynamics on a slower timescale than Taylor relaxation. An extension of the 3D-MRxMHD-based equilibrium code SPEC3 to allow plasma flow with reasonably general flow profiles is now under development, but the formulation of Ref. 1, which describes the plasma in each region as an ideal Euler fluid is too general for practical purposes as it allows all the turbulent complexity of such a fluid. This motivates seeking a relaxation model for fluids that maintains compatibility with ideal-MHD flow-equilibrium theory, at least in the axisymmetric limit.

  1. R.L. Dewar, Z. Yoshida, A. Bhattacharjee and S.R. Hudson, J. Plasma Phys., 81, 515810604-1–22, (2015).

*Support from Australian Research Council Discovery Grant DP170102606 is acknowledged.

Presenters

  • Robert L Dewar

    • Australian Natl Univ, MSRI Berkeley

Authors

  • Robert L Dewar

    • Australian Natl Univ, MSRI Berkeley

  • Zhisong Qu

    • Australian Natl Univ

  • Naoki Sato

    • Kyoto University

  • Stuart R. Hudson

    • Australian Natl Univ
    • Princeton Plasma Phys Lab
    • PPPL
    • Princeton Plasma Physics Laboratory

  • Stuart R. Hudson

    • Australian Natl Univ
    • Princeton Plasma Phys Lab
    • PPPL
    • Princeton Plasma Physics Laboratory