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Inner Belt Wisp Precipitation Measured by ELFIN: Regimes of Energetic Electron Scattering by VLF Transmitter Waves

Yangyang Shen, Anton Artemyev, Qianli Ma, Xiao‐Jia Zhang, D. Mourenas, Ethan Tsai, Colin Wilkins, J. Wu, V. Angelopoulos

2022Journal of Geophysical Research Space Physics15 citationsDOI

Abstract

Abstract Man‐made very low frequency (VLF) transmitter waves play a critical role in energetic electron scattering and precipitation from the inner radiation belt, a type of which is called wisp precipitation. Wisps exhibit dispersive energy‐versus‐ L spectra due to the evolution of electron cyclotron resonance conditions with near‐monochromatic VLF transmitter waves. Here, we report on such observations of inner belt wisp precipitation events with full pitch angle resolution in the energy range of 50 to ∼500 keV as measured by Electron Loss and Fields Investigation (ELFIN) at L < ∼2 between March 2021 and April 2022. Statistical observations (82 events) reveal occasional (18 events) wisp precipitation events with local bounce‐loss‐cone electron flux enhancements, which provide new information compared with flux enhancements measured in previous studies only in the drift loss cone. Based on magnetic field and plasmaspheric density models, quasilinear theory, and detailed pitch angle distributions of wisps from ELFIN, we have estimated the wisp electron bounce‐averaged pitch angle diffusion coefficients to be of the order of 10 −4 to 10 −2 s −1 . These are several orders of magnitude larger than the diffusion rates calculated from models using global statistical averages of VLF transmitter wave power. When using our estimated diffusion coefficients to deduce the associated local transmitter wave amplitudes near the equator, based on quasilinear calculations from a transmitter‐induced electron diffusion model, we find these wave amplitudes to be >1 mV/m. Although probable overestimates, such inferred wave amplitudes exceed the theoretical threshold amplitude for nonlinear interactions, strongly suggesting that it is necessary to include nonlinear effects for an accurate evaluation of energetic electron scattering by transmitter waves.

Topics & Concepts

Van Allen radiation beltElectron precipitationAmplitudePhysicsComputational physicsPitch anglePlasmasphereElectronDiffusionIonosphereElectron densityGeophysicsMagnetosphereMagnetic fieldOpticsNuclear physicsQuantum mechanicsThermodynamicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsAstro and Planetary Science
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