Generation of EMIC Waves in the Magnetosphere and Precipitation of Energetic Protons: Comparison of the Data from THEMIS High Earth Orbiting Satellites and POES Low Earth Orbiting Satellites

Regions of the detection of electromagnetic ion-cyclotron (EMIC) waves on the THEMIS satellites near the equatorial plane and the precipitation of energetic protons on POES low Earth orbiting satellites are compared with the magnetospheric magnetic field model. It is confirmed that low Earth orbitin...

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Veröffentlicht in:	Geomagnetism and Aeronomy 2018-07, Vol.58 (4), p.469-482
Hauptverfasser:	Popova, T. A., Yahnin, A. G., Demekhov, A. G., Chernyaeva, S. A.
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Sprache:	eng
Schlagworte:	Cyclotrons Earth and Environmental Science Earth magnetosphere Earth orbits Earth Sciences Fluxes Geophysics/Geodesy Instability Low earth orbits Magnetic fields Magnetosphere Magnetospheric magnetic field Magnetospheric magnetic fields POES satellites Proton precipitation Satellites
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container_title	Geomagnetism and Aeronomy
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creator	Popova, T. A. Yahnin, A. G. Demekhov, A. G. Chernyaeva, S. A.
description	Regions of the detection of electromagnetic ion-cyclotron (EMIC) waves on the THEMIS satellites near the equatorial plane and the precipitation of energetic protons on POES low Earth orbiting satellites are compared with the magnetospheric magnetic field model. It is confirmed that low Earth orbiting satellites detect the precipitation of energetic protons in the regon associated with observations of EMIC waves in the magnetosphere. This is consistent with the idea that protons are scattered in the loss cone as a result of ioncyclotron interaction. Thus, observations of fluxes of energetic protons in low Earth orbits can be used to monitor ion-cyclotron instability regions in the magnetosphere. Simultaneous observations at high and low Earth orbits contribute to the construction of a spatiotemporal pattern of the interaction region of EMIC waves and energetic protons. In addition, it is shown that proton precipitation associated with EMIC waves can cause errors in determining the latitude of the isotropic boundary (the equatorial boundary of isotropic fluxes of energetic protons), which is an indicator of the configuration of the magnetic field in the magnetosphere.
doi_str_mv	10.1134/S0016793218040114
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subjects	Cyclotrons Earth and Environmental Science Earth magnetosphere Earth orbits Earth Sciences Fluxes Geophysics/Geodesy Instability Low earth orbits Magnetic fields Magnetosphere Magnetospheric magnetic field Magnetospheric magnetic fields POES satellites Proton precipitation Satellites
title	Generation of EMIC Waves in the Magnetosphere and Precipitation of Energetic Protons: Comparison of the Data from THEMIS High Earth Orbiting Satellites and POES Low Earth Orbiting Satellites
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