Japan Geoscience Union Meeting 2016

Presentation information

International Session (Oral)

Symbol P (Space and Planetary Sciences) » P-EM Solar-Terrestrial Sciences, Space Electromagnetism & Space Environment

[P-EM07] Dynamics in magnetosphere and ionosphere

Wed. May 25, 2016 9:00 AM - 10:30 AM 103 (1F)

Convener:*Yoshizumi Miyoshi(Institute for Space-Earth Environmental Research, Nagoya University), Yoshimasa Tanaka(National Institute of Polar Research), Aoi Nakamizo(Applied Electromagnetic Research Institute, National Institute of Information and Communications Technology), Mitsunori Ozaki(Faculty of Electrical and Computer Engineering, Institute of Science and Engineering, Kanazawa University), Shin'ya Nakano(The Institute of Statistical Mathematics), Tomoaki Hori(Institute for Space-Earth Environmental Research, Nagoya University), Chair:Yoshimasa Tanaka(National Institute of Polar Research)

10:00 AM - 10:15 AM

[PEM07-17] Plasmaspheric modeling using the new Ionosphere-Plasmasphere-Electrodynamics (IPE) model

*Naomi Maruyama1,2, Phil Richards3, Mariangel Fedrizzi1,2, Tzu-Wei Fang1,2, Tim Fuller-Rowell1,2, Mihail Codrescu2 (1.Univ. of Colorado at Boulder, 2.NOAA Space Weather Prediction Center, 3.George Mason Univ.)

Keywords:plasmasphere, Modeling and forecasting, coupling to ionosphere-thermosphere, ERG mission

Cold plasma in the plasmasphere and plumes plays an important role in wave-particle interactions in the inner magnetosphere. Plumes regulate the excitation of electromagnetic ion cyclotron (EMIC) waves. Plumes modulate the resonant EMIC wave-particle interactions by energization of cold ions and the pitch angle scattering of the ring current hot ions and the radiation belt relativistic electrons. Furthermore, a remarkable correlation has been observed between the inner edge of the outer radiation belt electrons and the innermost plasmapause location. Very recent observations show that plasmaspheric plumes can influence the dayside magnetic reconnection rate.
A newly developed global three-dimensional ionosphere-plasmasphere-electrodynamics (IPE) model is used to understand the dynamical redistribution of the cold plasma in the plasmasphere and it’s coupling to the ionosphere-thermosphere system. The IPE model reproduces the ionospheric Storm Enhanced Density (SED) plumes as frequently observed in TEC during geomagnetically active conditions. The SED plumes are transported into the cusp and over the pole due to the high latitude convection, which is characterized as Tongues of Ionization (TOIs). The model captures the corresponding formation of the plasmaspheric drainage plume-like structure in the magnetospheric equatorial plane as reported in previous studies. The plumes gradually start to rotate around the earth, and the plasmasphere gradually refills from the ionosphere as the storm time convection weakens. In this presentation, the temporal and spatial evolution of the redistribution of cold plasma between the plasmasphere and ionosphere is examined depending on the types of the solar wind driving conditions. Furthermore, the role of the Sub-Auroral Polarization Streams (SAPS) electric field is evaluated in draining the plasmaspheric plasma and plumes, as SAPS field penetrates into the plasmasphere due to enhanced convection. An example of how the ERG spacecraft will measure the dynamical evolution of the plasmasphere and plumes is demonstrated.