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Authors: Li W, Shprits Y Y, and Thorne R M
Title: Dynamic evolution of energetic outer zone electrons due to wave-particle interactions during storms
Abstract: [1] Relativistic electrons in the outer radiation belt are subjected to pitch angle and energy diffusion by chorus, electromagnetic ion cyclotron (EMIC), and hiss waves. Using quasi-linear diffusion coefficients for cyclotron resonance with field-aligned waves, we examine whether the resonant interactions with chorus waves produce a net acceleration or loss of relativistic electrons. We also examine the effect of pitch angle scattering by EMIC and hiss waves during the main and recovery phases of a storm. The numerical simulations show that wave-particle interactions with whistler mode chorus waves with realistic wave spectral properties result in a net acceleration of relativistic electrons, while EMIC waves, which provide very fast scattering near the edge of the loss cone, may be a domi. . .
Date: 10/2007 Publisher: Journal of Geophysical Research DOI: 10.1029/2007JA012368 Available at:
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Authors: Thorne R M, Shprits Y Y, Meredith N P, Horne R B, Li W, et al.
Title: Refilling of the slot region between the inner and outer electron radiation belts during geomagnetic storms
Abstract: [1] Energetic electrons (≥50 keV) are injected into the slot region (2 < L < 4) between the inner and outer radiation belts during the early recovery phase of geomagnetic storms. Enhanced convection from the plasma sheet can account for the storm-time injection at lower energies but does not explain the rapid appearance of higher-energy electrons (≥150 keV). The effectiveness of either radial diffusion (driven by enhanced ULF waves) or local acceleration (during interactions with enhanced whistler mode chorus emissions), as a potential source for refilling the slot at higher energies, is analyzed for observed conditions during the early recovery phase of the 10 October 1990 storm. We demonstrate that local acceleration, driven by observed chorus emissions, can account for the rapid enh. . .
Date: 06/2007 Publisher: Journal of Geophysical Research DOI: 10.1029/2006JA012176 Available at:
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