We have performed numerical simulations of boundary-driven dynamos using a three-dimensional non-linear magnetohydrodynamical model in a spherical shell geometry. A conducting fluid of magnetic Prandtl num-ber Pm = 0.01 is driven into motion by the counter-rotation of the two hemispheric walls. The resulting flow is of von Kármán type, consist-ing of a layer of zonal velocity close to the outer wall and a secondary meridional circulation. Above a certain forcing threshold, the mean flow is unstable to non-axisymmetric motions within an equatorial belt. For fixed forcing above this threshold, we have studied the dynamo properties of this flow. The presence of a conducting outer wall is essential to the existence of a dynamo at these parame...
Self-consistent convection-driven dynamos in an electrically conducting fluid spherical shell of con...
We analyse *50 3-D numerical calculations of hydrodynamic dynamos driven by convection in a spherica...
A fully three-dimensional, nonlinear, time-dependent spherical interface dynamo is investigated usin...
We have performed numerical simulations of boundary-driven dynamos using a three-dimensional nonline...
We present a numerical study of dynamo action in a conducting fluid encased in a metallic spherical ...
A fundamental process in physics is dynamo action which concerns how magnetic fields are generated a...
International audienceWe numerically investigate the efficiency of a spherical Couette flow at gener...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
We numerically investigate the efficiency of a spherical Couette flow at generating a self-sustained...
A series of numerical simulations of the dynamo process operating inside gas giant planets has been ...
Abstract. Numerical calculations of fluid dynamos powered by thermal convection in a rotating, elect...
Laminar electrically conducting Couette flows with the hydrodynamically stable quasi-Keplerian rotat...
The geometry of the liquid region of a planetary core can effect core convection and magnetic field ...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
Self-consistent convection-driven dynamos in an electrically conducting fluid spherical shell of con...
We analyse *50 3-D numerical calculations of hydrodynamic dynamos driven by convection in a spherica...
A fully three-dimensional, nonlinear, time-dependent spherical interface dynamo is investigated usin...
We have performed numerical simulations of boundary-driven dynamos using a three-dimensional nonline...
We present a numerical study of dynamo action in a conducting fluid encased in a metallic spherical ...
A fundamental process in physics is dynamo action which concerns how magnetic fields are generated a...
International audienceWe numerically investigate the efficiency of a spherical Couette flow at gener...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
We numerically investigate the efficiency of a spherical Couette flow at generating a self-sustained...
A series of numerical simulations of the dynamo process operating inside gas giant planets has been ...
Abstract. Numerical calculations of fluid dynamos powered by thermal convection in a rotating, elect...
Laminar electrically conducting Couette flows with the hydrodynamically stable quasi-Keplerian rotat...
The geometry of the liquid region of a planetary core can effect core convection and magnetic field ...
Context. Large-scale dynamo simulations are sometimes confined to spherical wedge geometries by impo...
Self-consistent convection-driven dynamos in an electrically conducting fluid spherical shell of con...
We analyse *50 3-D numerical calculations of hydrodynamic dynamos driven by convection in a spherica...
A fully three-dimensional, nonlinear, time-dependent spherical interface dynamo is investigated usin...