The dynamics of unforced turbulence at high Reynolds number for Taylor-Green vortices generalized to MHD

AMS Citation:
Pouquet, A., E. Lee, M. Brachet, P. D. Mininni, and D. L. Rosenberg, 2010: The dynamics of unforced turbulence at high Reynolds number for Taylor-Green vortices generalized to MHD. Geophysical and Astrophysical Fluid Dynamics, 104, 115-134, doi:10.1080/03091920903304080.
Date:2010-06-24
Resource Type:article
Title:The dynamics of unforced turbulence at high Reynolds number for Taylor-Green vortices generalized to MHD
Abstract: We study decaying magnetohydrodynamics (MHD) turbulence stemming from the evolution of the Taylor-Green flow generalized recently to MHD, with equal viscosity and magnetic resistivity and up to equivalent grid resolutions of 2048³ points. A pseudo-spectral code is used in which the symmetries of the velocity and magnetic fields have been implemented, allowing for sizable savings in both computer time and usage of memory at a given Reynolds number. The flow is non-helical, and at initial time the kinetic and magnetic energies are taken to be equal and concentrated in the large scales. After testing the validity of the method on grids of 512³ points, we analyze the data on the large grids up to Taylor Reynolds numbers of ≈2200. We find that the global temporal evolution is accelerated in MHD, compared to the corresponding neutral fluid case. We also observe an interval of time when such configurations have quasi-constant total dissipation, time during which statistical properties are determined after averaging over of the order of two turn-over times. A weak turbulence spectrum is obtained which is also given in terms of its anisotropic components. Finally, we contrast the development of small-scale eddies with two other initial conditions for the magnetic field and briefly discuss the structures that develop, and which display a complex array of current and vorticity sheets with clear rolling-up and folding.
Subject(s):MHD, Turbulence, Alfven waves, Universality, Symmetries, Current sheets folding
Peer Review:Refereed
Copyright Information:Copyright 2010 Taylor & Francis.
OpenSky citable URL: ark:/85065/d7p270cm
Publisher's Version: 10.1080/03091920903304080
Author(s):
  • Annick Pouquet - NCAR/UCAR
  • Edwin Lee - NCAR/UCAR
  • Marc Brachet - NCAR/UCAR
  • Pablo Mininni - NCAR/UCAR
  • Duane Rosenberg - NCAR/UCAR
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