Calculation of renormalized viscosity and resistivity in magnetohydrodynamic turbulence

Abstract

A self-consistent renormalization (RG) scheme has been applied to nonhelical magnetohydrodynamic turbulence with normalized cross helicity σc =0 and σc 1. Kolmogorov's 5/3 powerlaw is assumed in order to compute the renormalized parameters. It has been shown that the RG fixed point is stable for d dc ≈ 2.2. The renormalized viscosity * and resistivity η* have been calculated, and they are found to be positive for all parameter regimes. For σc=0 and large Alfv\'en ratio (ratio of kinetic and magnetic energies) rA, *=0.36 and η*=0.85. As rA is decreased, * increases and η* decreases, untill rA ≈ 0.25 where both * and η* are approximately zero. For large d, both * and η* vary as d-1/2. The renormalized parameters for the case σc 1 are also reported.

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