2013
DOI: 10.1080/03091929.2013.823006
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From isotropic to rapidly rotating anisotropic alpha-squared dynamos

Abstract: Mean field α 2 -dynamos in a sphere with an insulating exterior are considered for a steady α-effect of the form α = a(I − A z z), A ≥ 0, derived by Moffatt (Dynamo action associated with random inertial waves in a rotating conducting fluid. J. Fluid Mech. 1970, 44, 705-719) for strong rotation. The unit vector z is aligned with the angular velocity Ω and as Ω → ∞, A → 1. We consider the effect on axisymmetric magnetic fields of increasing rotation rate, i.e. A → 1, so that the α-effect varies from isotropic … Show more

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“…Thus, if the turbulence is homogeneous, any two-dimensional mean-field decays. However, no general antidynamo result can be expected: dynamo action occurs in the spherical case (Phillips and Ivers 2013). Neither mean-field ADT applies in rapidly-rotating turbulence with a strong magnetic field, e.g.…”
Section: Two-scale Turbulence and Adt'smentioning
confidence: 96%
“…Thus, if the turbulence is homogeneous, any two-dimensional mean-field decays. However, no general antidynamo result can be expected: dynamo action occurs in the spherical case (Phillips and Ivers 2013). Neither mean-field ADT applies in rapidly-rotating turbulence with a strong magnetic field, e.g.…”
Section: Two-scale Turbulence and Adt'smentioning
confidence: 96%