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Paper detail

Bridging planets and stars using scaling laws in anelastic spherical shell dynamos

Dynamos operating in the interiors of rapidly rotating planets and low-mass stars might belong to a similar category where rotation plays a vital role. We quantify this similarity using scaling laws. We analyse direct numerical simulations of Boussinesq and anelastic spherical shell dynamos. These dynamos represent simplified models which span from Earth-like planets to rapidly rotating low-mass stars. We find that magnetic field and velocity in these dynamos are related to the available buoyancy power via a simple power law which holds over wide variety of control parameters.

preprint2013arXivOpen access
Rakesh K. YadavThomas GastineUlrich R. ChristensenLucia D. V. Duarte
astro-ph.EPastro-ph.SR
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Rakesh K. YadavThomas GastineUlrich R. ChristensenLucia D. V. Duarte

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