Inner magnetospheric superthermal electron transport: Photoelectron and plasma sheet electron sources

Details Inner magnetospheric superthermal electron transport: Photoelectron and plasma sheet electron sources Inner magnetospheric superthermal electron transport: Photoelectron and plasma sheet electron sources

Oct 1998

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998jgr...10323485k&link_type=abstract

Journal of Geophysical Research, Volume 103, Issue A10, p. 23485-23502

Physics

Plasma Physics

11

Magnetospheric Physics: Energetic Particles, Trapped, Magnetospheric Physics: Magnetosphere/Ionosphere Interactions, Space Plasma Physics: Numerical Simulation Studies, Space Plasma Physics: Kinetic And Mhd Theory

Scientific paper

Two time-dependent kinetic models of superthermal electron transport are combined to conduct global calculations of the nonthermal electron distribution function throughout the inner magnetosphere. It is shown that the energy range of validity for this combined model extends down to the superthermal-thermal intersection at a few eV, allowing for the calculation of the entire distribution function and thus an accurate heating rate to the thermal plasma. Because of the linearity of the formulas, the source terms are separated to calculate the distributions from the various populations, namely photoelectrons (PEs) and plasma sheet electrons (PSEs). These distributions are discussed in detail, examining the processes responsible for their formation in the various regions of the inner magnetosphere. It is shown that convection, corotation, and Coulomb collisions are the dominant processes in the formation of the PE distribution function and that PSEs are dominated by the interplay between the drift terms. Of note is that the PEs propagate around the nightside in a narrow channel at the edge of the plasmasphere as Coulomb collisions reduce the fluxes inside of this and convection compresses the flux tubes inward. These distributions are then recombined to show the development of the total superthermal electron distribution function in the inner magnetosphere and their influence on the thermal plasma. PEs usually dominate the dayside heating, with integral energy flues to the ionosphere reaching 1010eVcm-2s-1 in the plasmasphere, while heating from the PSEs typically does not exceed 108eVcm-2s-1. On the nightside, the inner plasmasphere is usually unheated by superthermal electrons. A feature of these combined spectra is that the distribution often has upward slopes with energy, particularly at the crossover from PE to PSE dominance, indicating that instabilities are possible.

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