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The Implications of Temporal Variability in Wave‐Particle Interactions in Earth's Radiation Belts

C. E. J. Watt, Hayley Allison, R. L. Thompson, Sarah Bentley, Nigel P. Meredith, S. A. Glauert, R. B. Horne, I. J. Rae

2020Geophysical Research Letters20 citationsDOIOpen Access PDF

Abstract

Abstract Changes in electron flux in Earth's outer radiation belt can be modeled using a diffusion‐based framework. Diffusion coefficients D for such models are often constructed from statistical averages of observed inputs. Here, we use stochastic parameterization to investigate the consequences of temporal variability in D . Variability time scales are constrained using Van Allen Probe observations. Results from stochastic parameterization experiments are compared with experiments using D constructed from averaged inputs and an average of observation‐specific D . We find that the evolution and final state of the numerical experiment depends upon the variability time scale of D ; experiments with longer variability time scales differ from those with shorter time scales, even when the time‐integrated diffusion is the same. Short variability time scale experiments converge with solutions obtained using an averaged observation‐specific D , and both exhibit greater diffusion than experiments using the averaged‐input D . These experiments reveal the importance of temporal variability in radiation belt diffusion.

Topics & Concepts

DiffusionVan Allen radiation beltStatistical physicsTemporal scalesScale (ratio)Stochastic modellingFlux (metallurgy)RadiationPhysicsComputational physicsMathematicsStatisticsOpticsBiologyMaterials scienceMagnetosphereQuantum mechanicsMetallurgyPlasmaEcologyThermodynamicsIonosphere and magnetosphere dynamicsAtmospheric and Environmental Gas DynamicsAtmospheric Ozone and Climate