Fast Non-Equilibrium Pitch Angle Diffusion in a Plasmaspheric Plume Associated with BARREL Precipitation
2022 3rd URSI Atlantic and Asia Pacific Radio Science Meeting (AT-AP-RASC)(2022)
摘要
This summary paper reports progress on an ongoing investigation of radiation belt electron pitch-angle scattering by plume hiss waves. We further analyze an electron precipitation event observed by BARREL, first reported in [1]. We find that the bremsstrahlung x-ray spectrum observed by BARREL is not consistent with an exponential precipitating electron energy spectrum, and is harder than the trapped electron spectrum measured by Van Allen Probes. We extend our quasi-linear diffusion model to consider a more realistic initial electron energy spectrum. The evolution of the electron phase space density towards a harder energy spectrum is qualitatively consistent with the BARREL observations and is attributed to the rapid loss of low energy particles at early times during their non-equilibrium interaction with the plume hiss waves.
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关键词
fast nonequilibrium pitch angle diffusion,plasmaspheric plume associated,BARREL precipitation,summary paper reports progress,ongoing investigation,radiation belt electron pitch-angle scattering,plume hiss waves,electron precipitation event,bremsstrahlung x-ray spectrum,exponential precipitating electron energy spectrum,trapped electron spectrum,Van Allen Probes,quasilinear diffusion model,realistic initial electron energy spectrum,electron phase space density,harder energy spectrum,BARREL observations,low energy particles,nonequilibrium interaction
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