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Energetic Electron Precipitation Observed by FIREBIRD‐II Potentially Driven by EMIC Waves: Location, Extent, and Energy Range From a Multievent Analysis

Luisa Capannolo, Wen Li, H. E. Spence, A. Johnson, Mykhaylo Shumko, J. G. Sample, D. M. Klumpar

2021Geophysical Research Letters45 citationsDOI

Abstract

Abstract We evaluate the location, extent, and energy range of electron precipitation driven by ElectroMagnetic Ion Cyclotron (EMIC) waves using coordinated multisatellite observations from near‐equatorial and Low‐Earth‐Orbit (LEO) missions. Electron precipitation was analyzed using the Focused Investigations of Relativistic Electron Burst Intensity, Range and Dynamics (FIREBIRD‐II) CubeSats, in conjunction either with typical EMIC‐driven precipitation signatures observed by Polar Orbiting Environmental Satellites (POES) or with in situ EMIC wave observations from Van Allen Probes. The multievent analysis shows that electron precipitation occurred in a broad region near dusk (16–23 MLT), mostly confined to 3.5–7.5 L‐shells. Each precipitation event occurred on localized radial scales, on average ∼0.3 L. Most importantly, FIREBIRD‐II recorded electron precipitation from ∼200 to 300 keV to the expected ∼MeV energies for most cases, suggesting that EMIC waves can efficiently scatter a wide energy range of electrons.

Topics & Concepts

Electron precipitationEmic and eticPhysicsPrecipitationVan Allen ProbesRange (aeronautics)Van Allen radiation beltElectronPolarAstrophysicsCyclotronIonAtmospheric sciencesGeophysicsMagnetosphereAstronomyMeteorologyNuclear physicsMaterials sciencePlasmaComposite materialAnthropologyQuantum mechanicsSociologyIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsEarthquake Detection and Analysis
Energetic Electron Precipitation Observed by FIREBIRD‐II Potentially Driven by EMIC Waves: Location, Extent, and Energy Range From a Multievent Analysis | Litcius