Anisotropic non-perturbative zero modes for passively advected magnetic fields

Abstract

A first analytic assessment of the role of anisotropic corrections to the isotropic anomalous scaling exponents is given for the d-dimensional kinematic magneto-hydrodynamics problem in the presence of a mean magnetic field. The velocity advecting the magnetic field changes very rapidly in time and scales with a positive exponent . Inertial-range anisotropic contributions to the scaling exponents, ζj, of second-order magnetic correlations are associated to zero modes and have been calculated non-perturbatively. For d=3, the limit 0 yields ζj=j-2+ (2j3 +j2 -5 j - 4)/[2(4 j2 - 1)] where j (j≥ 2) is the order in the Legendre polynomial decomposition applied to correlation functions. Conjectures on the fact that anisotropic components cannot change the isotropic threshold to the dynamo effect are also made.

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