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The effect of anisotropic diffusivity on rotating magnetoconvection in the Earth's core
Authors:Masaki Matsushima
Affiliation:1. Department of Earth and Planetary Sciences , Tokyo Institute of Technology , Tokyo 152-8551 , Japan mmatsush@geo.titech.ac.jp
Abstract:A thermal diffusive process in the Earth's core is principally enhanced by small-scale flows that are highly anisotropic because of the Earth's rapid rotation and a strong magnetic field. This means that a thermal eddy diffusivity should not be a scalar but a tensor. The effect of such anisotropic tensor diffusivity, which is to be prescribed, on dynamics in the Earth's core is investigated through numerical simulations of magnetoconvection in a rapidly rotating system. A certain degree of anisotropy has an insignificant effect on the character, like kinetic and magnetic energies, of magnetoconvection in a small region with periodic boundaries in the three directions. However, in a region with top and bottom rigid boundary surfaces, kinetic and magnetic energies of magnetoconvection can be altered by the same degree of anisotropy. This implies that anisotropic tensor diffusivity affects on dynamics in the core, in particular near the boundary surfaces.
Keywords:Anisotropic diffusivity  Magnetoconvection  Earth's core
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