Multi-scale dynamics of magnetic flux tubes and inverse magnetic energy transfer [HEAP]

http://arxiv.org/abs/2001.07291


We report on an analytical and numerical study of the dynamics of a three-dimensional array of identical magnetic flux tubes in the reduced-magnetohydrodynamic description of the plasma. We propose that the long time evolution of this system is dictated by flux-tube mergers; and that such mergers are dynamically constrained by the conservation of the pertinent (ideal) invariant, {\it viz.} the magnetic potential and axial fluxes of each tube. In the direction perpendicular to the merging plane, flux tubes evolve in critically-balanced fashion. These notions allow us to construct an analytical model for how quantities such as the magnetic energy and the energy-containing scale evolve as functions of time. Of particular importance is the conclusion that, like its two-dimensional counterpart, this system exhibits an inverse transfer of magnetic energy that terminates only at the system scale. We perform direct numerical simulations that confirm these predictions and reveal other interesting aspects of the evolution of the system. We find, for example, that the early time evolution is characterized by a sharp decay of the initial magnetic energy, which we attribute to the ubiquitous formation of current sheets. We also show that a quantitatively similar inverse transfer of magnetic energy is observed when the initial condition is a random, small-scale magnetic seed field.

Read this paper on arXiv…

M. Zhou, N. Loureiro and D. Uzdensky
Wed, 22 Jan 20
40/116

Comments: 30 pages, 18 figures, submitted for publication