Evolution of PSD radial profiles at the outer radiation belt associated with geosynchronous flux dropouts: THEMIS observations

Details Evolution of PSD radial profiles at the outer radiation belt associated with geosynchronous flux dropouts: THEMIS observations Evolution of PSD radial profiles at the outer radiation belt associated with geosynchronous flux dropouts: THEMIS observations

Dec 2011

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2011agufmsm41b2032h&link_type=abstract

American Geophysical Union, Fall Meeting 2011, abstract #SM41B-2032

Physics

[2720] Magnetospheric Physics / Energetic Particles: Trapped, [2724] Magnetospheric Physics / Magnetopause And Boundary Layers, [2731] Magnetospheric Physics / Magnetosphere: Outer, [2774] Magnetospheric Physics / Radiation Belts

Scientific paper

Geosynchronous electron flux dropouts are most likely due to fast drift loss of the particles to the magnetopause (or equivalently, the "magnetopause shadowing effect"). A possible effect related to the drift loss is the radial diffusion of PSD due to gradient of PSD set by the drift loss effect at an outer L region. This possibly implies that the drift loss can affect the flux levels even inside the trapping boundary. We recently (Kim et al., 2011, JGR, in press) investigated the details of such diffusion process by solving the diffusion equation with a set of initial and boundary conditions set by the drift loss. . Motivated by the simulation work, we have examined observationally the evolution of the radial profiles of PSD during the geosynchronous flux dropouts. For this work, we have first identified a list of geosynchronous flux dropout events for 2007-2010 from GOES satellite electron measurements and solar wind pressures observed by ACE satellite. We have then used the electron data from the Time History of Events and Macroscale Interactions during Substorms (THEMIS) spacecraft measurements to investigate the particle fluxes and PSDs inside geosynchronous orbit. The five THEMIS spacecraft sufficiently cover the inner magnetospheric regions near the equatorial plane and thus provide us with data of much higher spatial resolution. In this paper, we report the preliminary results of our investigations on PSD evolutions during the geosynchronous flux dropout events and discuss implications on the effects of the drift loss on the flux levels at inner L regions.

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