Electron Dropout Echoes Induced by Interplanetary Shock: A Statistical Study

Tuesday, 11 July 2017
Furong Room (Cynn Hotel)
Zhiyang Liu, Qiugang Zong, Yixin Hao, Xuzhi Zhou, Xiaohan Ma and Ying Liu, Peking University, School of Earth and Space Sciences, Beijing, China
Abstract:
“Electron dropout echo” as indicated by repeated moderate dropout and recovery signatures of the flux of energetic electron in the out radiation belt region has been investigated systematically. The electron dropout and its echoes are usually found for higher energy (> 300 keV) channels fluxes, whereas the flux enhancements are obvious for lower energy electrons simultaneously after the interplanetary shock arrives at the Earth's geosynchronous orbit. 104 dropout echo events have been found from 215 interplanetary shock events from 1998 to 2007 based on LANL satellite data. In analogy to substorm injections, these 104 events could be naturally divided into two categories: dispersionless (49 events) or dispersive (55 events) according to the energy dispersion of the initial dropout. It is found that locations of dispersionless events are distributed mainly in the duskside magnetosphere. Further, the obtained locations derived from dispersive events with the time-of-flight technique of the initial dropout regions are mainly located at the duskside as well. Statistical studies have shown that the effect of shock normal, interplanetary magnetic field Bz and solar wind dynamic pressure may be insignificant to these electron dropout events.

We suggest that the electric field impulse induced by the interplanetary shock produces a more pronounced inward migration of electrons at the dusk side, resulting in the observed dusk-side moderate dropout of the electron flux and its consequent echoes.