Add to ORKGThe geometry of the liquid region of a planetary core can effect core convection and magnetic field generation processes. Varying the spherical shell radius ratio, χ = ri/ro, illustrates differences between planets with differing core radius ratios as well as how dynamo processes vary with time in an evolving planetary core. Here we study numerical models of thermally driven dynamo action in a rotating shell of outer radius ro with electrically conducting Boussinesq fluid that surrounds an equally conductive solid inner sphere of radius ri. Dynamo solutions are found for 0.15 ≤ χ ≤ 0.65 at Ekman number E = 3 × 10-4, Prandtl number Pr = 1, and magnetic Prandtl number Pm = 5, with mechanically rigid, isothermal boundary conditions. In cases w...
Convection and magnetic field generation in the Earth and planetary interiors are driven by both the...
The magnetic fields of planets and stars are generated by the motions of electrically conducting flu...
The magnetic fields of planets and stars are generated by the motions of electrically conducting flu...
The geometry of the liquid region of a planetary core can effect core convection and magnetic field ...
Abstract. Numerical calculations of fluid dynamos powered by thermal convection in a rotating, elect...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
International audienceWe study numerically an extensive set of dynamo models in rotating spherical s...
International audienceWe study numerically an extensive set of dynamo models in rotating spherical s...
Convective planetary dynamos depend upon secular cooling and internal radioactive decay for generati...
Convective planetary dynamos depend upon secular cooling and internal radioactive decay for generati...
We analyse *50 3-D numerical calculations of hydrodynamic dynamos driven by convection in a spherica...
Context. Dynamo action in giant planets and rapidly rotating stars leads to a broad variety of magne...
The 2.5D approach is used to solve the dynamo model in the Boussinesq approximation. Thermal convect...
Self-consistent convection-driven dynamos in an electrically conducting fluid spherical shell of con...
Convection and magnetic field generation in the Earth and planetary interiors are driven by both the...
The magnetic fields of planets and stars are generated by the motions of electrically conducting flu...
The magnetic fields of planets and stars are generated by the motions of electrically conducting flu...
The geometry of the liquid region of a planetary core can effect core convection and magnetic field ...
Abstract. Numerical calculations of fluid dynamos powered by thermal convection in a rotating, elect...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
International audienceWe study numerically an extensive set of dynamo models in rotating spherical s...
International audienceWe study numerically an extensive set of dynamo models in rotating spherical s...
Convective planetary dynamos depend upon secular cooling and internal radioactive decay for generati...
Convective planetary dynamos depend upon secular cooling and internal radioactive decay for generati...
We analyse *50 3-D numerical calculations of hydrodynamic dynamos driven by convection in a spherica...
Context. Dynamo action in giant planets and rapidly rotating stars leads to a broad variety of magne...
The 2.5D approach is used to solve the dynamo model in the Boussinesq approximation. Thermal convect...
Self-consistent convection-driven dynamos in an electrically conducting fluid spherical shell of con...
Convection and magnetic field generation in the Earth and planetary interiors are driven by both the...
The magnetic fields of planets and stars are generated by the motions of electrically conducting flu...
The magnetic fields of planets and stars are generated by the motions of electrically conducting flu...