Inductive Electric Fields in the Inner Magnetosphere during Goemagnetically Active Periods

Details Inductive Electric Fields in the Inner Magnetosphere during Goemagnetically Active Periods Inductive Electric Fields in the Inner Magnetosphere during Goemagnetically Active Periods

Dec 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010agufmsm13b1818o&link_type=abstract

American Geophysical Union, Fall Meeting 2010, abstract #SM13B-1818

Physics

[2712] Magnetospheric Physics / Electric Fields, [2730] Magnetospheric Physics / Magnetosphere: Inner, [2778] Magnetospheric Physics / Ring Current, [2788] Magnetospheric Physics / Magnetic Storms And Substorms

Scientific paper

The present study examines the characteristics of electric fields in the night-side inner magnetosphere during geomagnetically active periods. Electric-field and magnetic-field measurements made by the Cluster spacecraft on their perigee passes are used. The results are summarized as follows: (1) The duskward electric-field component, EY, tends to be larger in the pre-midnight sector and off the equator, presumably corresponding to the more frequent occurrence of substorms and boundary-layer crossings, respectively; (2) The occurrence distribution of EY is biased positively with an average of 0.6-0.8 mV/m, which reflects enhanced convection at active time. (3) The occurrence distribution of EY is also characterized by extending tails with a standard deviation larger than the twice the average. Although the occurrence ratio decreases sharply with increasing magnitude of EY, |EY| occasionally exceeds 5 mV/m. (4) The sign of EY is well organized by the change of magnetic field. When the local magnetic configuration becomes more dipolar, EY tends to be positive (duskward), whereas it tends to be negative (dawnward) when the configuration becomes more stretched. (5) As for strong electric fields, EY tends to be proportional to the change of the H magnetic component, and from the induction equation the typical spatial scale of EY is estimated at 4.2 RE. Results 4 and 5 strongly suggests that those strong electric fields are inductive. However, the corresponding process/phenomenon can be different from event to event. It is also suggested that substorm(-like) processes inside the ring current effectively intensify the ring current.

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