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Characteristics of electron microburst precipitation based on high‐resolution ELFIN measurements
We present statistical characteristics of electron microburst precipitation using high time‐
resolution measurements from the low‐altitude Electron Losses and Fields InvestigatioN …
resolution measurements from the low‐altitude Electron Losses and Fields InvestigatioN …
Relativistic electron precipitation by EMIC waves: Importance of nonlinear resonant effects
Relativistic electron losses in Earth's radiation belts are usually attributed to electron
resonant scattering by electromagnetic waves. One of the most important wave modes for …
resonant scattering by electromagnetic waves. One of the most important wave modes for …
Hot plasma effects on electron resonant scattering by electromagnetic ion cyclotron waves
Resonant scattering by electromagnetic ion cyclotron (EMIC) waves is one of the most
effective mechanisms of relativistic electron losses in Earth's inner magnetosphere. Low …
effective mechanisms of relativistic electron losses in Earth's inner magnetosphere. Low …
Energetic electron precipitation driven by the combined effect of ULF, EMIC, and whistler waves
Energetic electron losses in the Earth's inner magnetosphere are dominated by outward
radial diffusion and scattering into the atmosphere by various electromagnetic waves. The …
radial diffusion and scattering into the atmosphere by various electromagnetic waves. The …
On the role of ULF waves in the spatial and temporal periodicity of energetic electron precipitation
Energetic electron precipitation to the Earth's atmosphere is a key process controlling
radiation belt dynamics and magnetosphere‐ionosphere coupling. One of the main drivers …
radiation belt dynamics and magnetosphere‐ionosphere coupling. One of the main drivers …
Dependence of relativistic electron precipitation in the ionosphere on EMIC wave minimum resonant energy at the conjugate equator
We investigate relativistic electron precipitation events detected by Polar Environmental
Satellites (POES) in low‐Earth orbit in close conjunction with Van Allen Probe A …
Satellites (POES) in low‐Earth orbit in close conjunction with Van Allen Probe A …
Observations of relativistic electron precipitation due to combined scattering of whistler‐mode and EMIC waves
The two most important wave modes responsible for energetic electron scattering to the
Earth's ionosphere are electromagnetic ion cyclotron (EMIC) waves and whistler‐mode …
Earth's ionosphere are electromagnetic ion cyclotron (EMIC) waves and whistler‐mode …
Relativistic electron flux decay and recovery: relative roles of EMIC waves, chorus waves, and electron injections
We investigate the dynamics of relativistic electrons in the Earth's outer radiation belt by
analyzing the interplay of several key physical processes: electron losses due to pitch angle …
analyzing the interplay of several key physical processes: electron losses due to pitch angle …
Observations of relativistic electron precipitation due to combined scattering of whistler-mode and EMIC waves
MF Bashir, AV Artemyev, XJ Zhang… - Authorea …, 2023 - essopenarchive.org
The two most important wave modes responsible for energetic electron scattering to the
Earth's ionosphere are electromagnetic ion cyclotron (EMIC) waves and whistler-mode …
Earth's ionosphere are electromagnetic ion cyclotron (EMIC) waves and whistler-mode …
Comparison of energetic electron fluxes measured by GPS and THEMIS spacecraft in the inner magnetosphere
R Curtis, AV Artemyev, DL Vainchtein… - Journal of …, 2022 - Wiley Online Library
Key elements of space weather models are energetic electron fluxes in the inner
magnetosphere and the outer radiation belt. Flux depletion is driven by various loss …
magnetosphere and the outer radiation belt. Flux depletion is driven by various loss …