The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions

The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions

The magnetospheric response to step-like solar wind dynamic pressure increases under southward IMF conditions is studied using the University of Michigan MHD code. A two phased response in the ionosphere is observed, similar to what is observed when the IMF is northward by looking into the re...

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Main Authors: Y. Yu, A. J. Ridley
Format: Article
Language:English
Published: Copernicus Publications 2009-12-01
Series:Annales Geophysicae
Online Access:https://www.ann-geophys.net/27/4391/2009/angeo-27-4391-2009.pdf
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spelling doaj-c6549b2db956471baac4b21f4a1836b92020-11-24T21:28:38ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762009-12-01274391440710.5194/angeo-27-4391-2009The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditionsY. Yu0A. J. RidleyDepartment of Atmospheric, Oceanic and Space Science, University of Michigan, Ann Arbor, MI, USAThe magnetospheric response to step-like solar wind dynamic pressure increases under southward IMF conditions is studied using the University of Michigan MHD code. A two phased response in the ionosphere is observed, similar to what is observed when the IMF is northward by looking into the residual potential and field-aligned current (FAC) patterns in the ionosphere. The first phase response right after the high pressure enhancement hits the magnetopause is associated with a pair of FACs downward in the postnoon and upward in the prenoon region. These FACs are caused by dusk-to-dawn electric fields inside the dayside magnetopause launched by a fast mode compressional wave. The second phase response shows another pair of potential cells as well as FACs in opposite polarity, which originates from magnetospheric vortices on the equatorial plane. The vortices appear to be formed by the recovery of the system from the fast mode wave.https://www.ann-geophys.net/27/4391/2009/angeo-27-4391-2009.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Y. Yu
A. J. Ridley
spellingShingle Y. Yu
A. J. Ridley
The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions
Annales Geophysicae
author_facet Y. Yu
A. J. Ridley
author_sort Y. Yu
title The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions
title_short The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions
title_full The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions
title_fullStr The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions
title_full_unstemmed The response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward IMF conditions
title_sort response of the magnetosphere-ionosphere system to a sudden dynamic pressure enhancement under southward imf conditions
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2009-12-01
description The magnetospheric response to step-like solar wind dynamic pressure increases under southward IMF conditions is studied using the University of Michigan MHD code. A two phased response in the ionosphere is observed, similar to what is observed when the IMF is northward by looking into the residual potential and field-aligned current (FAC) patterns in the ionosphere. The first phase response right after the high pressure enhancement hits the magnetopause is associated with a pair of FACs downward in the postnoon and upward in the prenoon region. These FACs are caused by dusk-to-dawn electric fields inside the dayside magnetopause launched by a fast mode compressional wave. The second phase response shows another pair of potential cells as well as FACs in opposite polarity, which originates from magnetospheric vortices on the equatorial plane. The vortices appear to be formed by the recovery of the system from the fast mode wave.
url https://www.ann-geophys.net/27/4391/2009/angeo-27-4391-2009.pdf
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