Add to ORKGAbstract. We examine kinematic dynamo action in an electrically conducting spherical body of fluid with an overlying shell of differential rotation. It is thought that such flow types could explain the nearly axisymmetric magnetic field of Saturn. Although we find that an outer layer of differential rotation can 'axisymmetrize' the exterior magnetic field, surprisingly, sometimes it does not, giving magnetic fields that have no axisym-metric ingredients
International audiencePlanetary magnetic fields are generated by motions of electrically conducting ...
Magnetic fields can be created in stably stratified (non-convective) layers in a differentially rota...
[1] Periodic modulation of magnetospheric phenomena at Earth and Jupiter results principally from th...
The magnetometer measurements taken by Cassini have confirmed the unusual character of Saturn’s inte...
If a conducting fluid shell is undergoing spin-axisymmetric differential rotation and overlies the d...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
Saturn's magnetic field is remarkably axisymmetric. Its dipole axis is inclined by less than 0.2 deg...
Saturn’s magnetic field is remarkably axisymmetric. Early evidence for nonaxisymmetry came from the...
A sphere containing electrically conducting fluid can generate a magnetic field by dynamo action, pr...
We use the exact same parameters as Tilgner (2005) in his figure 4, namely a Poincaré number Po=0.3 ...
During 2017, the Cassini fluxgate magnetometer made in situ measurements of Saturn's magnetic field ...
Saturn has a rather peculiar magnetic field in that it is highly spin axisymmetric. Evidence for th...
A series of numerical simulations of the dynamo process operating inside gas giant planets has been ...
International audiencePlanetary magnetic fields are generated by motions of electrically conducting ...
Magnetic fields can be created in stably stratified (non-convective) layers in a differentially rota...
[1] Periodic modulation of magnetospheric phenomena at Earth and Jupiter results principally from th...
The magnetometer measurements taken by Cassini have confirmed the unusual character of Saturn’s inte...
If a conducting fluid shell is undergoing spin-axisymmetric differential rotation and overlies the d...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
Saturn's magnetic field is remarkably axisymmetric. Its dipole axis is inclined by less than 0.2 deg...
Saturn’s magnetic field is remarkably axisymmetric. Early evidence for nonaxisymmetry came from the...
A sphere containing electrically conducting fluid can generate a magnetic field by dynamo action, pr...
We use the exact same parameters as Tilgner (2005) in his figure 4, namely a Poincaré number Po=0.3 ...
During 2017, the Cassini fluxgate magnetometer made in situ measurements of Saturn's magnetic field ...
Saturn has a rather peculiar magnetic field in that it is highly spin axisymmetric. Evidence for th...
A series of numerical simulations of the dynamo process operating inside gas giant planets has been ...
International audiencePlanetary magnetic fields are generated by motions of electrically conducting ...
Magnetic fields can be created in stably stratified (non-convective) layers in a differentially rota...
[1] Periodic modulation of magnetospheric phenomena at Earth and Jupiter results principally from th...