Add to ORKGVoyager spacecraft radio, interplanetary plasma, and interplanetary magnetic field data are used to show that large amplitude fluctuations in the power generated by the Saturn kilometric radio emission are best correlated with solar wind ram pressure variation. In all, thirteen solar wind quantities previously found important in driving terrestrial magnetospheric substorms and other auroral processes were examined for evidence of correlations with the Saturn radio emission. The results are consistent with hydromagnetic wave or eddy diffusion processes driven by large scale solar wind pressure changes at Saturn's dayside magnetopause
Since the Voyager mission it is known that Saturn Kilometric Radiation (SKR) is strongly influenced ...
International audienceThe internal rotation rates of the giant planets can be estimated by cloud mot...
During the period 8 to 30 January 2004, a campaign to study the correlation between the solar wind a...
Using data collected by the Voyager 1 and 2 spacecraft in 1980 and 1981, strong evidence is presente...
Voyager spacecraft measurements of Saturn kilometric radiation (SKR) identified two features of thes...
Magnetospheric radio emissions, Saturn electrostatic discharges, inferred source locations, and emis...
With the arrival of the Cassini spacecraft at Saturn in July 2004, there have been quasi-continuous ...
International audienceThe Saturn Kilometric Radiation (SKR) was observed for the first time during t...
International audienceThe external control of Saturn kilometric radiation (SKR) by the solar wind ha...
The Saturn Kilometric Radiation (SKR) was observed for the first time during the flyby of Saturn by ...
We report on radio signatures observed at Saturn by the Cassini RPWS experiment which are strikingly...
Saturn emits bursts of radio waves from its polar regions as it rotates. This study examines how the...
Voyager-2 planetry radio astronomy measurements obtained near Saturn are discussed. They indicate th...
The degree to which solar wind driving may affect Saturn’s magnetosphere is not yet fully understood...
With the arrival of the Cassini spacecraft at Saturn in July 2004, there have been quasi-continuous ...
Since the Voyager mission it is known that Saturn Kilometric Radiation (SKR) is strongly influenced ...
International audienceThe internal rotation rates of the giant planets can be estimated by cloud mot...
During the period 8 to 30 January 2004, a campaign to study the correlation between the solar wind a...
Using data collected by the Voyager 1 and 2 spacecraft in 1980 and 1981, strong evidence is presente...
Voyager spacecraft measurements of Saturn kilometric radiation (SKR) identified two features of thes...
Magnetospheric radio emissions, Saturn electrostatic discharges, inferred source locations, and emis...
With the arrival of the Cassini spacecraft at Saturn in July 2004, there have been quasi-continuous ...
International audienceThe Saturn Kilometric Radiation (SKR) was observed for the first time during t...
International audienceThe external control of Saturn kilometric radiation (SKR) by the solar wind ha...
The Saturn Kilometric Radiation (SKR) was observed for the first time during the flyby of Saturn by ...
We report on radio signatures observed at Saturn by the Cassini RPWS experiment which are strikingly...
Saturn emits bursts of radio waves from its polar regions as it rotates. This study examines how the...
Voyager-2 planetry radio astronomy measurements obtained near Saturn are discussed. They indicate th...
The degree to which solar wind driving may affect Saturn’s magnetosphere is not yet fully understood...
With the arrival of the Cassini spacecraft at Saturn in July 2004, there have been quasi-continuous ...
Since the Voyager mission it is known that Saturn Kilometric Radiation (SKR) is strongly influenced ...
International audienceThe internal rotation rates of the giant planets can be estimated by cloud mot...
During the period 8 to 30 January 2004, a campaign to study the correlation between the solar wind a...