Transport properties of Keplerian flows in extended local domains with no imposed field

Abstract

We compare transport statistics of elongated incompressible shearing boxes for different Reynolds and magnetic Prandtl numbers, Re and Pm, and aspect ratios, Lz/Lx. We find that at fixed aspect ratio Lz/Lx=4 and Re = 10,000, the turbulent stresses for Pm 1 do not show considerable variation and follow a power law Pm3/2 for Pm > 1. This is qualitatively consistent with previous results based on net imposed flux and small box Lz/Lx 1 simulations but the power law exponent is different. The saturated level of stresses, the ratio of Maxwell stress to the magnetic energy and Reynolds to Maxwell stress ratio are roughly invariant as Lz/Lx is increased. For cases where the boxes are elongated in both the azimuth and vertical direction, the transport coefficient α ∈ [0.1,1.0] that is 10-100 times larger than the case with Ly/Lx = 2 and large Lz/Lx. Overall, our results suggest that the saturated state of turbulence is sensitive to both dissipation coefficients and aspect ratio (both Lz/Lx, Ly/Lx) motivating further work on this problem.