Quasi-isotropic cascade in MHD turbulence with mean field

Abstract

We propose a phenomenological theory of incompressible magnetohydrodynamic turbulence in the presence of a strong large-scale magnetic field, which establishes a link between the known anisotropic models of strong and weak MHD turbulence We argue that the Iroshnikov-Kraichnan isotropic cascade develops naturally within the plane perpendicular to the mean field, while oblique-parallel cascades with weaker amplitudes can develop, triggered by the perpendicular cascade, with a reduced flux resulting from a quasi-resonance condition. The resulting energy spectrum E(k,k) has the same slope in all directions. The ratio between the extents of the inertial range in the parallel and perpendicular directions is equal to brms/B0. These properties match those found in recent 3D MHD simulations with isotropic forcing reported in [R. Grappin and W.-C. M\"uller, Phys. Rev. E 82, 26406 (2010)].