This Special Topic focuses on magnetohydrodynamic (MHD) processes in the deep interiors of planets, in which their fluid dynamos are in operation. The dynamo-generated, global, magnetic fields provide a background for our solar-terrestrial environment. Probing the processes within the dynamos is a significant theoretical and computational challenge and any window into interior dynamics greatly increases our understanding. Such a window is provided by exploring rapid dynamics, particularly MHD waves about the dynamo-defined basic state. This field is the subject of current attention as geophysical observations and numerical modellings advance. We here pay particular attention to torsional Alfvén waves/oscillations and magnetic Rossby waves, ...
The past decade has seen a wealth of new data, mainly from the Galilean satellites and Mars, but als...
Torsional waves are a principal feature of the dynamics of the fluid outer core where the Earth's ma...
Dynamo activity caused by waves in a rotating magnetoplasma is investigated. In astrophysical enviro...
We investigate slow magnetic Rossby waves in convection-driven dynamos in rotating spherical shells....
We investigate slow magnetic Rossby waves in convection-driven dynamos in rotating spherical shells....
We consider torsional Alfvén waves which may be excited in Jupiter's metallic hydrogen region. These...
We present a dynamo mechanism arising from the presence of barotropically unstable zonal jet current...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
Great progress has been made in the numerical simulation of planetary dynamos, though these numerica...
The ARES Directorate at JSC has researched the physical processes that create planetary magnetic fie...
The predominant force balance in rapidly rotating planetary cores is between Coriolis, pressure, buo...
International audienceMagnetic fields are present in many different astrophysical objects, such as a...
Context. Rapidly rotating stars show short-period oscillations in magnetic activity and polar appear...
Planetary magnetic fields are generated in their deep interiors by a self-sustained dynamo process t...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
The past decade has seen a wealth of new data, mainly from the Galilean satellites and Mars, but als...
Torsional waves are a principal feature of the dynamics of the fluid outer core where the Earth's ma...
Dynamo activity caused by waves in a rotating magnetoplasma is investigated. In astrophysical enviro...
We investigate slow magnetic Rossby waves in convection-driven dynamos in rotating spherical shells....
We investigate slow magnetic Rossby waves in convection-driven dynamos in rotating spherical shells....
We consider torsional Alfvén waves which may be excited in Jupiter's metallic hydrogen region. These...
We present a dynamo mechanism arising from the presence of barotropically unstable zonal jet current...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
Great progress has been made in the numerical simulation of planetary dynamos, though these numerica...
The ARES Directorate at JSC has researched the physical processes that create planetary magnetic fie...
The predominant force balance in rapidly rotating planetary cores is between Coriolis, pressure, buo...
International audienceMagnetic fields are present in many different astrophysical objects, such as a...
Context. Rapidly rotating stars show short-period oscillations in magnetic activity and polar appear...
Planetary magnetic fields are generated in their deep interiors by a self-sustained dynamo process t...
The Earth's magnetic field is generated in its fluid outer core through dynamo action. In this proce...
The past decade has seen a wealth of new data, mainly from the Galilean satellites and Mars, but als...
Torsional waves are a principal feature of the dynamics of the fluid outer core where the Earth's ma...
Dynamo activity caused by waves in a rotating magnetoplasma is investigated. In astrophysical enviro...