TitleRegional differences of the ionospheric response to the July 2012 geomagnetic storm
Publication TypeJournal Article
Year of Publication2017
AuthorsKuai, J, Liu, L, Lei, J, Liu, J, Zhao, B, Chen, Y, Le, H, Wang, Y, Hu, L
JournalJournal of Geophysical Research: Space Physics
Volume122
Issue4
Pagination4654 - 4668
Date Published04/2017
Abstract

The July 2012 geomagnetic storm is an extreme space weather event in solar cycle 24, which is characterized by a southward interplanetary geomagnetic field lasting for about 30 h below −10 nT. In this work, multiple instrumental observations, including electron density from ionosondes, total electron content (TEC) from Global Positioning System, Jason‐2, and Gravity Recovery and Climate Experiment, and the topside ion concentration observed by the Defense Meteorological Satellite Program spacecraft are used to comprehensively present the regional differences of the ionospheric response to this event. In the Asian‐Australian sector, an intensive negative storm is detected near longitude ~120°E on 16 July, and in the topside ionosphere the negative phase is mainly existed in the equatorial region. The topside and bottomside TEC contribute equally to the depletion in TEC, and the disturbed electric fields make a reasonable contribution. On 15 July, the positive storm effects are stronger in the Eastside than in the Westside. The topside TEC make a major contribution to the enhancement in TEC for the positive phases, showing the important role of the equatorward neutral winds. For the American sector, the equatorial ionization anomaly intensification is stronger in the Westside than in the Eastside and shows the strongest feature in the longitude ~110°W. The combined effects of the disturbed electric fields, composition disturbances, and neutral winds cause the complex storm time features. Both the topside ion concentrations and TEC reveal the remarkable hemispheric asymmetry, which is mainly resulted from the asymmetry in neutral winds and composition disturbances.

URLhttp://doi.wiley.com/10.1002/2016JA023844
DOI10.1002/2016JA023844
Short TitleJ. Geophys. Res. Space Physics


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