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29 March 2024
 
  » arxiv » astro-ph/0412594

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The onset of a small-scale turbulent dynamo at low magnetic Prandtl numbers
A. A. Schekochihin ; N. E. L. Haugen ; A. Brandenburg ; S. C. Cowley ; J. L. Maron ; J. C. McWilliams ;
Date 22 Dec 2004
Journal Astrophys.J. 625 (2005) L115-L118
Subject astro-ph
AffiliationCambridge), N. E. L. Haugen (NTNU), A. Brandenburg (NORDITA), S. C. Cowley (UCLA & Imperial College), J. L. Maron (AMNH), J. C. McWilliams (UCLA
AbstractWe study numerically the dependence of the critical magnetic Reynolds number Rmc for the turbulent small-scale dynamo on the hydrodynamic Reynolds number Re. The turbulence is statistically homogeneous, isotropic, and mirror--symmetric. We are interested in the regime of low magnetic Prandtl number Pm=Rm/Re<1, which is relevant for stellar convective zones, protostellar disks, and laboratory liquid-metal experiments. The two asymptotic possibilities are Rmc->const as Re->infinity (a small-scale dynamo exists at low Pm) or Rmc/Re=Pmc->const as Re->infinity (no small-scale dynamo exists at low Pm). Results obtained in two independent sets of simulations of MHD turbulence using grid and spectral codes are brought together and found to be in quantitative agreement. We find that at currently accessible resolutions, Rmc grows with Re with no sign of approaching a constant limit. We reach the maximum values of Rmc~500 for Re~3000. By comparing simulations with Laplacian viscosity, fourth-, sixth-, and eighth-order hyperviscosity and Smagorinsky large-eddy viscosity, we find that Rmc is not sensitive to the particular form of the viscous cutoff. This work represents a significant extension of the studies previously published by Schekochihin et al. 2004, PRL 92, 054502 and Haugen et al. 2004, PRE, 70, 016308 and the first detailed scan of the numerically accessible part of the stability curve Rmc(Re).
Source arXiv, astro-ph/0412594
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