Litcius/Paper detail

POES/MEPED Angular Response Functions and the Precipitating Radiation Belt Electron Flux

R. S. Selesnick, Weichao Tu, K. B. Yando, R. M. Millan, R. J. Redmon

2020Journal of Geophysical Research Space Physics32 citationsDOI

Abstract

Abstract Angular response functions are derived for four electron channels and six proton channels of the SEM‐2 MEPED particle telescopes on the POES and MetOp satellites from Geant4 simulations previously used to derive the energy response. They are combined with model electron distributions in energy and pitch angle to show that the vertical 0° telescope, intended to measure precipitating electrons, instead usually measures trapped or quasi‐trapped electrons, except during times of enhanced pitch angle diffusion. A simplified dynamical model of the radiation belt electron distribution near the loss cone, as a function of longitude, energy, and pitch angle, that accounts for pitch angle diffusion, azimuthal drift, and atmospheric backscatter is fit to sample MEPED electron data at L = 4 during times of differing diffusion rates. It is then used to compute precipitating electron flux, as function of energy and longitude, that is lower than would be estimated by assuming that the 0° telescope always measures precipitating electrons.

Topics & Concepts

Pitch angleElectronVan Allen radiation beltPhysicsDiffusionAzimuthFlux (metallurgy)Computational physicsProtonTelescopeRadiationEnergy fluxEnergy (signal processing)Atomic physicsOpticsMaterials scienceGeophysicsPlasmaMagnetosphereNuclear physicsAstronomyMetallurgyQuantum mechanicsThermodynamicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsAtmospheric Ozone and Climate