Computer Science
Scientific paper
Sep 1984
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984esasp.217...85b&link_type=abstract
In ESA Achievements of the Intern. Magnetospheric Study (IMS) p 85-96 (SEE N85-24544 14-46)
Computer Science
Boundary Layer Plasmas, Earth Atmosphere, Earth Magnetosphere, Energetic Particles, High Temperature Plasmas, International Magnetospheric Study, Magnetic Storms, Particle Acceleration, Particle Trajectories, Plasma Currents, Plasma-Particle Interactions, Ring Currents
Scientific paper
Accomplishments during IMS in clarifying magnetospheric particle variations in the region from geostationary orbit altitudes into the deep magnetotail are reviewed. Acceleration processes, transport processes, and loss processes are discussed. Changes in hot plasmas and energetic particle populations related to geomagnetic storm and magnetospheric substorm effects are considered. The IMS data allow a unified view as magnetospheric particles are traced from their acceleration source through the plasma sheet and outer trapping regions to their loss via ionospheric precipitation and ring current formation processes.
Baker Daniel N.
Fritz Teresa A.
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