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Prompt enhancement of the Earth's outer radiation belt due to substorm electron injections

C. L. TangShandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, Institute of Space Sciences Shandong University Weihai ChinaJichun ZhangSpace Science Center and Department of Physics University of New Hampshire Durham New Hampshire USAG. D. ReevesISR Division Los Alamos National Laboratory Los Alamos New Mexico USAZhenpeng SuCAS Key Laboratory of Geospace Environment, Department of Geophysics and Planetary, Sciences University of Science and Technology of China Hefei ChinaD. N. BakerLaboratory for Atmospheric and Space Research University of Colorado Boulder Boulder Colorado USAH. E. SpenceSpace Science Center and Department of Physics University of New Hampshire Durham New Hampshire USAH. O. FunstenISR Division Los Alamos National Laboratory Los Alamos New Mexico USAJ. B. BlakeThe Aerospace Corporation Los Angeles California USAJ. R. WygantSchool of Physics and Astronomy University of Minnesota, Twin Cities Minneapolis Minnesota USA
2016en
ABI

Abstract

Abstract We present multipoint simultaneous observations of the near‐Earth magnetotail and outer radiation belt during the substorm electron injection event on 16 August 2013. Time History of Events and Macroscale Interactions during Substorms A in the near‐Earth magnetotail observed flux‐enhanced electrons of 300 keV during the magnetic field dipolarization. Geosynchronous orbit satellites also observed the intensive electron injections. Located in the outer radiation belt, RBSP‐A observed enhancements of MeV electrons accompanied by substorm dipolarization. The phase space density (PSD) of MeV electrons at L * ~5.4 increased by 1 order of magnitude in 1 h, resulting in a local PSD peak of MeV electrons, which was caused by the direct effect of substorm injections. Enhanced MeV electrons in the heart of the outer radiation belt were also detected within 2 h, which may be associated with intensive substorm electron injections and subsequent local acceleration by chorus waves. Multipoint observations have shown that substorm electron injections not only can be the external source of MeV electrons at the outer edge of the outer radiation belt ( L * ~5.4) but also can provide the intensive seed populations in the outer radiation belt. These initial higher‐energy electrons from injection can reach relativistic energy much faster. The observations also provide evidence that enhanced substorm electron injections can explain rapid enhancements of MeV electrons in the outer radiation belt.

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