Add to ORKG[1] The centrifugal interchange instability is the primary driver of radial plasma transport in the magnetospheres of Jupiter and Saturn. Most previous theoretical treatments of this instability have ignored the role of the acceleration current and have assumed that the divergence of the centrifugal drift current in the magnetosphere is closed by Pedersen currents in the underlying ionosphere, through the connection provided by Birkeland (magnetic-field-aligned) currents. This is a reasonable approximation when the radial transport speed is small compared with the rotation speed. However, the exponential growth of the instability inevitably leads to the eventual violation of this condition. I analyze a simplified model of the Io plasma toru...
International audienceWe investigate the effect of a rotation of the Interplanetary Magnetic Field (...
Radial plasma transport in Jupiter's and Saturn's magnetospheres is driven by the centrifugal interc...
The gross structures of the magnetospheres of the outer planets are decided by processes quite diffe...
International audienceRecent Galileo and Cassini plasma and magnetic field observations indicate tha...
Two important differences between the giant magnetospheres (i.e., Jupiter\u27s and Saturn\u27s magne...
International audienceCharged particle injections are regularly observed in Saturn's inner magnetosp...
We describe, formulate, and investigate quantitatively a physical process which will lead to radial ...
The magnetospheres of giant planets are governed by the interplay of these planets’ fast rotation, t...
The Rice Convection Model has been modified and applied to the study of the Jovian magnetospheric sy...
International audienceWe analyse the interchange or flute instability of the equatorial plasma disk ...
During its more than 13 years in orbit, the Cassini spacecraft detected a large number of plasma and...
The configuration and dynamics of planetary magnetospheres are controlled by the interplay of their ...
Observations of Jupiter's auroral regions indicate that electrons are accelerated into Jupiter's atm...
The engine that drives the jovian magnetosphere is the mass added to the Io ion torus, accelerated t...
Plasma in the Jovian magnetosphere is removed from Io's torus mainly via ejection as energetic neutr...
International audienceWe investigate the effect of a rotation of the Interplanetary Magnetic Field (...
Radial plasma transport in Jupiter's and Saturn's magnetospheres is driven by the centrifugal interc...
The gross structures of the magnetospheres of the outer planets are decided by processes quite diffe...
International audienceRecent Galileo and Cassini plasma and magnetic field observations indicate tha...
Two important differences between the giant magnetospheres (i.e., Jupiter\u27s and Saturn\u27s magne...
International audienceCharged particle injections are regularly observed in Saturn's inner magnetosp...
We describe, formulate, and investigate quantitatively a physical process which will lead to radial ...
The magnetospheres of giant planets are governed by the interplay of these planets’ fast rotation, t...
The Rice Convection Model has been modified and applied to the study of the Jovian magnetospheric sy...
International audienceWe analyse the interchange or flute instability of the equatorial plasma disk ...
During its more than 13 years in orbit, the Cassini spacecraft detected a large number of plasma and...
The configuration and dynamics of planetary magnetospheres are controlled by the interplay of their ...
Observations of Jupiter's auroral regions indicate that electrons are accelerated into Jupiter's atm...
The engine that drives the jovian magnetosphere is the mass added to the Io ion torus, accelerated t...
Plasma in the Jovian magnetosphere is removed from Io's torus mainly via ejection as energetic neutr...
International audienceWe investigate the effect of a rotation of the Interplanetary Magnetic Field (...
Radial plasma transport in Jupiter's and Saturn's magnetospheres is driven by the centrifugal interc...
The gross structures of the magnetospheres of the outer planets are decided by processes quite diffe...