Add to ORKGThe structural nature of the earth's plasmasphere at onset and immediately following an intense magnetic storm is examined. Thermal proton density measurements by the RF ion mass spectrometer on the low altitude polar orbiting satellite OGO-4 were compared on five consecutive nightside passes during the early recovery stage of an intense storm occuring in September 1967. Observational results revealed (1) characteristic termination of the dense plasmapause, (2) secondary enhancement of the ion density poleward of the first abrupt plasmapause, and (3) an elongated plasma tail during the recovery phase of the storm
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
Data from multiple ground stations and satellites were used to see how the plasmasphere in the dusk ...
Data acquired during several multiday periods in 1982 at ground stations Siple, Halley, and Kerguele...
The structure of the plasmasphere was studied as seen by radiosounder measurements aboard the Alovet...
International audienceOn 5 January 2003, the footprint of the Cluster spacecraft, then orbiting in t...
This study investigates the 6 November 2001 great storm’s impact on the topside ionosphere utilizing...
The plasmapause marks the limit of the plasmasphere and is characterized by a sudden change in plasm...
International audienceThe aims of this paper are (1) briefly to describe the plasma devices onboard ...
Light ion trough measurements near midnight made by the RF ion mass spectrometer on OGO-4 operating ...
Direct measurement of thermal ion distributions in magnetosphere to determine position and structure...
Cross-phase-derived plasma mass density trends during the Hallowe'en 2003 geomagnetic storms are pre...
An intercomparison is made of the wavelike structures in the data from the light ion mass spectromet...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
Data from multiple ground stations and satellites were used to see how the plasmasphere in the dusk ...
Data acquired during several multiday periods in 1982 at ground stations Siple, Halley, and Kerguele...
The structure of the plasmasphere was studied as seen by radiosounder measurements aboard the Alovet...
International audienceOn 5 January 2003, the footprint of the Cluster spacecraft, then orbiting in t...
This study investigates the 6 November 2001 great storm’s impact on the topside ionosphere utilizing...
The plasmapause marks the limit of the plasmasphere and is characterized by a sudden change in plasm...
International audienceThe aims of this paper are (1) briefly to describe the plasma devices onboard ...
Light ion trough measurements near midnight made by the RF ion mass spectrometer on OGO-4 operating ...
Direct measurement of thermal ion distributions in magnetosphere to determine position and structure...
Cross-phase-derived plasma mass density trends during the Hallowe'en 2003 geomagnetic storms are pre...
An intercomparison is made of the wavelike structures in the data from the light ion mass spectromet...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...
It is shown that during the 30 October 2003 superstorm, dayside O+ ions were uplifted to DMSP altitu...