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Title:
Multiscale modeling of magnetospheric reconnection
Authors:
Kuznetsova, M. M.; Hesse, M.; Rastätter, L.; Taktakishvili, A.; Toth, G.; De Zeeuw, D. L.; Ridley, A.; Gombosi, T. I.
Affiliation:
AA(Space Weather Laboratory, NASA Goddard Space Flight Center, Greenbelt, Maryland, USA); AB(Space Weather Laboratory, NASA Goddard Space Flight Center, Greenbelt, Maryland, USA); AC(Space Weather Laboratory, NASA Goddard Space Flight Center, Greenbelt, Maryland, USA); AD(Space Weather Laboratory, NASA Goddard Space Flight Center, Greenbelt, Maryland, USA); AE(Center for Space Environment Modeling, University of Michigan, Ann Arbor, Michigan, USA); AF(Center for Space Environment Modeling, University of Michigan, Ann Arbor, Michigan, USA); AG(Center for Space Environment Modeling, University of Michigan, Ann Arbor, Michigan, USA); AH(Center for Space Environment Modeling, University of Michigan, Ann Arbor, Michigan, USA)
Publication:
Journal of Geophysical Research, Volume 112, Issue A10, CiteID A10210 (JGRA Homepage)
Publication Date:
10/2007
Origin:
AGU
AGU Keywords:
Space Plasma Physics: Magnetic reconnection (2723, 7526), Magnetospheric Physics: Magnetotail, Space Plasma Physics: Kinetic and MHD theory, Magnetospheric Physics: Magnetic storms and substorms (7954), Magnetospheric Physics: Magnetospheric configuration and dynamics
Abstract Copyright:
(c) 2007: American Geophysical Union
DOI:
10.1029/2007JA012316
Bibliographic Code:
2007JGRA..11210210K

Abstract

In our efforts to bridge the gap between small-scale kinetic modeling and global simulations, we introduced an approach that allows to quantify the interaction between large-scale global magnetospheric dynamics and microphysical processes in diffusion regions near reconnection sites. We use the global MHD code BATS-R-US and replace an ad hoc anomalous resistivity often employed by global MHD models with a physically motivated dissipation model. The primary kinetic mechanism controlling the dissipation in the diffusion region in the vicinity of the reconnection site is incorporated into the MHD description in terms of nongyrotropic corrections to the induction equation. We developed an algorithm to search for reconnection sites in north-south symmetric magnetotail. Spatial scales of the diffusion region and magnitude of the reconnection electric field are calculated consistently using local MHD plasma and field parameters. The locations of the reconnection sites are constantly updated during the simulations. To clarify the role of nongyrotropic effects in the diffusion region on the global magnetospheric dynamics, we perform simulations with steady southward interplanetary magnetic field driving of the magnetosphere. Ideal MHD simulations with magnetic reconnection supported by numerical resistivity often produce quasi-steady configuration with almost stationary near-Earth neutral line (NENL). Simulations with nongyrotropic corrections demonstrate dynamic quasi-periodic response to the steady driving conditions. Fast magnetotail reconnection supported by nongyrotropic effects results in tailward retreat of the reconnection site with average speed of the order of 100 km/s followed by a formation of a new NENL in the near-Earth thin current sheet. This approach allowed to model for the first time loading/unloading cycle frequently observed during extended periods of steady low-mach-number solar wind with southward interplanetary magnetic field.
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