Add to ORKGWe report the results of three-dimensional numerical simulations of convection-driven dynamos in relatively thin rotating spherical shells that show a transition from an strong non-oscillatory dipolar magnetic field to a weaker regularly oscillating dipolar field. The transition is induced primarily by the effects a stress-free boundary condition. The variation of the inner to outer radius ratio is found to have a less important effect
We present the first results from three-dimensional spherical shell simulations of magnetic dynamo a...
Convection and magnetic field generation in the Earth and planetary interiors are driven by both the...
Aims. We explore the effects of an outer stably stratified coronal envelope on rotating turbulent co...
The relative importance of the helicity and cross-helicity electromotive dynamo effects for self-sus...
Bistability and hysteresis of magnetohydrodynamic dipolar dynamos generated by turbulent convection ...
ABSTRACT We present the first results from three-dimensional spherical shell simulations of magnetic...
Numerical MHD simulations play increasingly important role for understanding mechanisms of stellar m...
Numerical MHD simulations play an increasingly important role for understanding the mechanisms of st...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
Context. Stellar convection zones are characterized by vigorous high-Reynolds number turbulence at l...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
Context: Stellar convection zones are characterized byvigorous high-Reynolds number turbulence at lo...
International audienceWe study numerically an extensive set of dynamo models in rotating spherical s...
The operation of the solar global dynamo appears to involve many dynamical elements. Self-consistent...
The geometry of the liquid region of a planetary core can effect core convection and magnetic field ...
We present the first results from three-dimensional spherical shell simulations of magnetic dynamo a...
Convection and magnetic field generation in the Earth and planetary interiors are driven by both the...
Aims. We explore the effects of an outer stably stratified coronal envelope on rotating turbulent co...
The relative importance of the helicity and cross-helicity electromotive dynamo effects for self-sus...
Bistability and hysteresis of magnetohydrodynamic dipolar dynamos generated by turbulent convection ...
ABSTRACT We present the first results from three-dimensional spherical shell simulations of magnetic...
Numerical MHD simulations play increasingly important role for understanding mechanisms of stellar m...
Numerical MHD simulations play an increasingly important role for understanding the mechanisms of st...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
Context. Stellar convection zones are characterized by vigorous high-Reynolds number turbulence at l...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
Context: Stellar convection zones are characterized byvigorous high-Reynolds number turbulence at lo...
International audienceWe study numerically an extensive set of dynamo models in rotating spherical s...
The operation of the solar global dynamo appears to involve many dynamical elements. Self-consistent...
The geometry of the liquid region of a planetary core can effect core convection and magnetic field ...
We present the first results from three-dimensional spherical shell simulations of magnetic dynamo a...
Convection and magnetic field generation in the Earth and planetary interiors are driven by both the...
Aims. We explore the effects of an outer stably stratified coronal envelope on rotating turbulent co...