Energetic electrons in dipolarization events: Spatial properties and anisotropy

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Abstract

Using the electromagnetic fields of an MHD simulation of magnetotail reconnection, flow bursts, and dipolarization, we further investigate the acceleration of electrons to suprathermal energies. Particular emphasis is on spatial properties and anisotropies as functions of energy and time. The simulation results are compared with Time History of Events and Macroscale Interactions during Substorms observations. The test particle approach successfully reproduces several observed injection features and puts them into a context of spatial maps of the injection region(s): a dominance of perpendicular anisotropies farther down the tail and closer to the equatorial plane, an increasing importance of parallel anisotropy closer to Earth and at higher latitudes, a drop in energy fluxes at energies below ∼10keV, coinciding with the plasma density drop, together with increases at higher energy, a triple peak structure of flux increases near 0°, 90°, and 180°, and a tendency of flux increases to extend to higher energy closer to Earth and at lower latitudes. We identified the plasma sheet boundary layers and adjacent lobes as a main source region for both increased and decreased energetic electron fluxes, related to the different effects of adiabatic acceleration at high and low energies. The simulated anisotropies tend to exceed the observed ones, particularly for perpendicular fluxes at high energies. The most plausible reason is that the MHD simulation lacks the effects of anisotropy-driven microinstabilities and waves, which would reduce anisotropies. Key Points Test particle tracing reproduces energetic electron events Perpendicular anisotropy dominates further out, parallel anisotropy closer in PSBL/lobe source dominates event via reconnection ©2014. American Geophysical Union. All Rights Reserved.

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Birn, J., Runov, A., & Hesse, M. (2014). Energetic electrons in dipolarization events: Spatial properties and anisotropy. Journal of Geophysical Research: Space Physics, 119(5), 3604–3616. https://doi.org/10.1002/2013JA019738

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