Add to ORKGInternational audienceThree geomagnetic satellite missions currently provide high precision magnetic field measurements from low altitude polar orbiting spacecraft. We demonstrate how these data can be used to determine the intensity and location of the horizontal currents that flow in the ionosphere, predominantly in the auroral electrojets. First, we examine the results during a recent geomagnetic storm. The currents derived from two satellites at different altitudes are in very good agreement, which verifies good stability of the method. Further, a very high degree of correlation (correlation coefficients of 0.8?0.9) is observed between the amplitudes of the derived currents and the commonly used auroral electrojet indices based on magne...
International audienceTo learn about the geometry and sources of the ionospheric current systems whi...
International audienceResults concerning the electrodynamics of the nightside auroral bulge are pres...
Variations in the scalar magnetic field (delta B) from the polar orbiting OGO 2, 4, and 6 spacecraft...
Three geomagnetic satellite missions currently provide high precision magnetic field measurements ...
The auroral electrojets are a key space weather phenomenon. They are formed by horizontal Hall curre...
International audienceOne important contribution to the magnetic field measured at satellite altitud...
In the auroral regions, magnetic disturbances can reach hundreds of nanotesla. These are caused by i...
We present a new climatological model of the ionospheric current system, determined from magnetic me...
One important contribution to the magnetic field measured at satellite altitude and at ground leve...
The auroral electrojets (AEJs) are complex and dynamic horizontal ionospheric electric currents whic...
Both the interior of the Earth and near-Earth space contain a variety of interacting magnetic field...
Both the interior of the Earth and near-Earth space contain a variety of interacting magnetic field ...
During auroral substorms, the electric currents flowing in the ionosphere change rapidly, and a larg...
The MAGSAT data on the three component's of the geomagnetic field are subjected to ring current corr...
During auroral substorms, the electric currents flowing in the ionosphere change rapidly, and a larg...
International audienceTo learn about the geometry and sources of the ionospheric current systems whi...
International audienceResults concerning the electrodynamics of the nightside auroral bulge are pres...
Variations in the scalar magnetic field (delta B) from the polar orbiting OGO 2, 4, and 6 spacecraft...
Three geomagnetic satellite missions currently provide high precision magnetic field measurements ...
The auroral electrojets are a key space weather phenomenon. They are formed by horizontal Hall curre...
International audienceOne important contribution to the magnetic field measured at satellite altitud...
In the auroral regions, magnetic disturbances can reach hundreds of nanotesla. These are caused by i...
We present a new climatological model of the ionospheric current system, determined from magnetic me...
One important contribution to the magnetic field measured at satellite altitude and at ground leve...
The auroral electrojets (AEJs) are complex and dynamic horizontal ionospheric electric currents whic...
Both the interior of the Earth and near-Earth space contain a variety of interacting magnetic field...
Both the interior of the Earth and near-Earth space contain a variety of interacting magnetic field ...
During auroral substorms, the electric currents flowing in the ionosphere change rapidly, and a larg...
The MAGSAT data on the three component's of the geomagnetic field are subjected to ring current corr...
During auroral substorms, the electric currents flowing in the ionosphere change rapidly, and a larg...
International audienceTo learn about the geometry and sources of the ionospheric current systems whi...
International audienceResults concerning the electrodynamics of the nightside auroral bulge are pres...
Variations in the scalar magnetic field (delta B) from the polar orbiting OGO 2, 4, and 6 spacecraft...