Using MFACE as input in the UAM to specify the MIT dynamics

Autor:	Matthias Holschneider, M. Förster, Maosheng He, B. E. Prokhorov, Alexander A. Namgaladze
Rok vydání:	2014
Předmět:	Meteorology Empirical modelling Magnetosphere Empirical orthogonal functions Atmospheric model Space weather Atmospheric sciences Atmosphere Solar wind Geophysics Space and Planetary Science Physics::Space Physics Environmental science Interplanetary magnetic field Physics::Atmospheric and Oceanic Physics
Zdroj:	Journal of Geophysical Research: Space Physics. 119:6704-6714
ISSN:	2169-9380
DOI:	10.1002/2014ja019981
Popis:	The magnetosphere-ionosphere-thermosphere (MIT) dynamic system significantly depends on the highly variable solar wind conditions, in particular, on changes of the strength and orientation of the interplanetary magnetic field (IMF). The solar wind and IMF interactions with the magnetosphere drive the MIT system via the magnetospheric field-aligned currents (FACs). The global modeling helps us to understand the physical background of this complex system. With the present study, we test the recently developed high-resolution empirical model of field-aligned currents MFACE (a high-resolution Model of Field-Aligned Currents through Empirical orthogonal functions analysis). These FAC distributions were used as input of the time-dependent, fully self-consistent global Upper Atmosphere Model (UAM) for different seasons and various solar wind and IMF conditions. The modeling results for neutral mass density and thermospheric wind are directly compared with the CHAMP satellite measurements. In addition, we perform comparisons with the global empirical models: the thermospheric wind model (HWM07) and the atmosphere density model (Naval Research Laboratory Mass Spectrometer and Incoherent Scatter Extended 2000). The theoretical model shows a good agreement with the satellite observations and an improved behavior compared with the empirical models at high latitudes. Using the MFACE model as input parameter of the UAM model, we obtain a realistic distribution of the upper atmosphere parameters for the Northern and Southern Hemispheres during stable IMF orientation as well as during dynamic situations. This variant of the UAM can therefore be used for modeling the MIT system and space weather predictions.
Databáze:	OpenAIRE
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