Litcius/Paper detail

The Key Role of Magnetic Curvature Scattering in Energetic Electron Precipitation During Substorms

Ying Zou, Xiao‐Jia Zhang, Anton Artemyev, Yangyang Shen, V. Angelopoulos

2024Geophysical Research Letters21 citationsDOIOpen Access PDF

Abstract

Abstract Energetic electron precipitation (EEP) during substorms significantly affects ionospheric chemistry and lower‐ionosphere (<100 km) conductance. Two mechanisms have been proposed to explain what causes EEP: whistler‐mode wave scattering, which dominates at low latitudes (mapping to the inner magnetosphere), and magnetic field‐line curvature scattering, which dominates poleward. In this case study, we analyzed a substorm event demonstrating the dominance of curvature scattering. Using ELFIN, POES, and THEMIS observations, we show that 50–1,000 keV EEP was driven by curvature scattering, initiated by an intensification and subsequent earthward motion of the magnetotail current sheet. Using a combination of Swarm, total electron content, and ELFIN measurements, we directly show the location of EEP with energies up to ∼1 MeV, which extended from the plasmapause to the near‐Earth plasma sheet (PS). The impact of this strong substorm EEP on ionospheric ionization is also estimated and compared with precipitation of PS (<30 keV) electrons.

Topics & Concepts

Electron precipitationCurvatureElectronPrecipitationGeophysicsScatteringElectron scatteringPhysicsAtmospheric sciencesGeologyComputational physicsPlasmaMagnetosphereNuclear physicsMeteorologyOpticsGeometryMathematicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsEarthquake Detection and Analysis