Journal ArticleDOI
Convection driven magnetohydrodynamic dynamos in rotating spherical shells
Keke Zhang,Friedrich H. Busse +1 more
TLDR
In this article, a comparison of the dynamo solutions of both, dipolar and quadrupolar, symmetries with the corresponding non-magnetic solutions showed a strong increase of the amplitude of convection owing to the release of the rotational constraint by the Lorentz force.Abstract:
Finite amplitude solutions for magnetohydrodynamic dynamos driven by convection in rotating spherical fluid shells with a radius ratio of ηequals; 0.4 are obtained numerically by the Galerkin method. Solutions which are twice periodic in the azimuth (case m equals; 2) are emphasized, but a few cases with higher azimuthal wavenumber have also been considered. An electrically insulating space outside the fluid shell has been assumed. A comparison of the dynamo solutions of both, dipolar and quadrupolar, symmetries with the corresponding non-magnetic solutions shows a strong increase of the amplitude of convection owing to the release of the rotational constraint by the Lorentz force. In some cases at low Taylor number the amplitude of convection is decreased, however, owing to the competition of the magnetic degree of freedom for the same energy source. The strength of differential rotation is usually reduced by the Lorentz force, especially in the case of quadrupolar dynamos which differ in this r...read more
Citations
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Zonal flows in plasma—a review
TL;DR: A comprehensive review of zonal flow phenomena in plasmas is presented in this article, where the focus is on zonal flows generated by drift waves and the back-interaction of ZF on the drift waves, and various feedback loops by which the system regulates and organizes itself.
Journal ArticleDOI
A three-dimensional convective dynamo solution with rotating and finitely conducting inner core and mantle
TL;DR: In this article, the authors presented the first 3D, time-dependent, self-consistent numerical solution of the magneto- hydrodynamic (MHD) equations that describe thermal convection and magnetic field generation in a rapidly rotating spherical fluid shell with a solid conducting inner core.
Journal ArticleDOI
Reversals of the Earth's magnetic field and temporal variations of the dynamo families
TL;DR: In this article, a recent model for polarity reversals suggested that reversals involve critical interactions between the primary (dipole) and secondary (quadrupole) dynamo families.
Journal ArticleDOI
Planetary Magnetic Fields and Fluid Dynamos
TL;DR: A wide range of simulations with different convection models, varying boundary conditions, and parameter values have been performed over the past 10 years as discussed by the authors and the results of specific models relating to individual planets are reviewed.
References
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Journal ArticleDOI
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Dynamically consistent nonlinear dynamos driven by convection in a rotating spherical shell. II: Dynamos with cycles and strong feedbacks
TL;DR: In this article, the main difference hydrodynamique avec Gilman et Miller is that the viscosite and diffusivite thermique sont reduites d'un facteur 10.
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Numerical simulations of stellar convective dynamos. II. Field propagation in the convection zone
TL;DR: In this paper, numerical simulations of stellar convection and magnetic field generation are presented, which satisfy the anelastic magnetohydrodynamic equations for a stratified, rotating, spherical shell of ionized gas.
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Kinematic Dynamo Models
TL;DR: In this paper, the authors examined spherical kinematic dynamo models with axisymmetric magnetic fields, which arise from the mean field electrodynamics of Steenbeck and Krause, and also from the nearly axismmetric limit of Braginskii.