We consider torsional Alfvén waves which may be excited in Jupiter's metallic hydrogen region. These axisymmetric zonal flow fluctuations have previously been examined for incompressible fluids in the context of Earth's liquid iron core. Theoretical models of the deep-seated Jovian dynamo, implementing radial changes of density and electrical conductivity in the equilibrium model, have reproduced its strong, dipolar magnetic field. Analysing such models, we find anelastic torsional waves travelling perpendicular to the rotation axis in the metallic region on timescales of at least several years. Being excited by the more vigorous convection in the outer part of the dynamo region, they can propagate both inwards and outwards. When being refl...
International audienceThe discovery of torsional Alfv\'en waves (geostrophic Alfv\'en waves) in the ...
AbstractEvidence for torsional oscillations (TOs) operating within the Earth's fluid outer core has ...
The hydrogen bulge is a feature in Jupiter's upper atmosphere that co-rotates with the planetary mag...
We consider torsional Alfvén waves which may be excited in Jupiter's metallic hydrogen region. These...
This Special Topic focuses on magnetohydrodynamic (MHD) processes in the deep interiors of planets, ...
The predominant force balance in rapidly rotating planetary cores is between Coriolis, pressure, buo...
Evidence for torsional oscillations (TOs) operating within the Earth's fluid outer core has been fou...
Turbulence and waves in Earth’s iron-rich liquid outer core are believed to be responsible for the g...
Jupiter’s weather layer exhibits long-term and quasi-periodic cycles of meteorological activity that...
Torsional waves are a principal feature of the dynamics of the fluid outer core where the Earth's ma...
Jupiter's magnetic field is generated by the convection of liquid metallic hydrogen in its interior....
This is the final version of the article. Available from Nature Publishing Group via the DOI in this...
The predominant force balance in rapidly rotating planetary cores is between Coriolis, pressure, bu...
12 pagesInternational audienceAlfvén waves propagate in electrically conducting fluids in the presen...
Oscillations in Earth's liquid core with periods of several decades are inferred from variations in ...
International audienceThe discovery of torsional Alfv\'en waves (geostrophic Alfv\'en waves) in the ...
AbstractEvidence for torsional oscillations (TOs) operating within the Earth's fluid outer core has ...
The hydrogen bulge is a feature in Jupiter's upper atmosphere that co-rotates with the planetary mag...
We consider torsional Alfvén waves which may be excited in Jupiter's metallic hydrogen region. These...
This Special Topic focuses on magnetohydrodynamic (MHD) processes in the deep interiors of planets, ...
The predominant force balance in rapidly rotating planetary cores is between Coriolis, pressure, buo...
Evidence for torsional oscillations (TOs) operating within the Earth's fluid outer core has been fou...
Turbulence and waves in Earth’s iron-rich liquid outer core are believed to be responsible for the g...
Jupiter’s weather layer exhibits long-term and quasi-periodic cycles of meteorological activity that...
Torsional waves are a principal feature of the dynamics of the fluid outer core where the Earth's ma...
Jupiter's magnetic field is generated by the convection of liquid metallic hydrogen in its interior....
This is the final version of the article. Available from Nature Publishing Group via the DOI in this...
The predominant force balance in rapidly rotating planetary cores is between Coriolis, pressure, bu...
12 pagesInternational audienceAlfvén waves propagate in electrically conducting fluids in the presen...
Oscillations in Earth's liquid core with periods of several decades are inferred from variations in ...
International audienceThe discovery of torsional Alfv\'en waves (geostrophic Alfv\'en waves) in the ...
AbstractEvidence for torsional oscillations (TOs) operating within the Earth's fluid outer core has ...
The hydrogen bulge is a feature in Jupiter's upper atmosphere that co-rotates with the planetary mag...