Direct Evidence of Electron Acceleration at the Dipolarization Front

Author:

Wei Y. Y.ORCID,Huang S. Y.ORCID,Jiang K.ORCID,Yuan Z. G.,Xu S. B.,Zhang J.ORCID,Xiong Q. Y.ORCID,Wang Z.,Lin R. T.ORCID,Yu L.,Li Y. Y.,Wang C. M.,Song G. J.

Abstract

Abstract The dramatic changes in the magnetic field at the dipolarization front (DF) provide a suitable environment for electron acceleration, which usually can cause the flux enhancement of energetic electrons behind the front. However, it is unknown whether energetic electrons observed at the DF are energized locally, and which mechanism accelerates the electrons at the DF is unclear. Our study performs a direct quantitative analysis to reveal the acceleration process of energetic electrons at the DF using the high-time-resolution data from NASA's Magnetospheric Multiscale mission. The fluxes of energetic electrons at 90° are enhanced at the front. Under adiabatic conditions, our quantitative analysis indicates that these electrons at the front could be locally accelerated to over 100 keV by betatron acceleration. Eventually, the electron temperature anisotropy formed via the betatron mechanism could provide the free energy to excite whistler waves at the DF. Our quantitative study provides, for the first time, strong direct evidence for the local electron acceleration at the DF.

Funder

National Natural Science Foundation of China

Publisher

American Astronomical Society

Subject

Space and Planetary Science,Astronomy and Astrophysics

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