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Dynamics of the high-latitude ionospheric irregularities during the 17 March 2015St. Patrick's Day storm: Ground-based GPS measurements

We report first results on the study of the high-latitude ionospheric irregularities observed in worldwide GPS data during the St. Patrick's Day geomagnetic storm (17 March 2015). Multisite GPS observations from more than 2500 ground-based GPS stations were used to analyze the dynamics of the i...

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Published in:	Space Weather 2015-09, Vol.13 (9), p.585-597
Main Authors:	Cherniak, Iurii, Zakharenkova, Irina, Redmon, Robert J
Format:	Article
Language:	English
Subjects:	Density Dynamic tests Dynamics Formations Geodetics Geophysics Global positioning systems GPS Ionization Ionosphere Ionospherics Irregularities Storms
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creator	Cherniak, Iurii Zakharenkova, Irina Redmon, Robert J
description	We report first results on the study of the high-latitude ionospheric irregularities observed in worldwide GPS data during the St. Patrick's Day geomagnetic storm (17 March 2015). Multisite GPS observations from more than 2500 ground-based GPS stations were used to analyze the dynamics of the ionospheric irregularities in the Northern and Southern Hemispheres. The most intense ionospheric irregularities lasted for more than 24h starting at 07 UT of 17 March. This period correlates well with an increase of the auroral Hemispheric Power index. We find hemispheric asymmetries in the intensity and spatial structure of the ionospheric irregularities. Over North America, the ionospheric irregularities zone expanded equatorward below ~45 degree N geographic latitude. Additionally, the strong midlatitude and high-latitude GPS phase irregularities in the auroral oval were found to be related to the formation of storm enhanced density and deepening of the main ionospheric trough through upper atmosphere ionization by energetic particle precipitation. Significant increases in the intensity of the irregularities within the polar cap region of both hemispheres were associated with the formation and evolution of the storm enhanced density/tongue of ionization structures and polar patches. Key Points * Multisite GPS observations are used to study the irregularities dynamics * Strong irregularities related to the formation of storm enhanced density and tongues of ionization * Irregularities intensity and dynamics are correlated with hemispheric power index
doi_str_mv	10.1002/2015SW001237
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Multisite GPS observations from more than 2500 ground-based GPS stations were used to analyze the dynamics of the ionospheric irregularities in the Northern and Southern Hemispheres. The most intense ionospheric irregularities lasted for more than 24h starting at 07 UT of 17 March. This period correlates well with an increase of the auroral Hemispheric Power index. We find hemispheric asymmetries in the intensity and spatial structure of the ionospheric irregularities. Over North America, the ionospheric irregularities zone expanded equatorward below ~45 degree N geographic latitude. Additionally, the strong midlatitude and high-latitude GPS phase irregularities in the auroral oval were found to be related to the formation of storm enhanced density and deepening of the main ionospheric trough through upper atmosphere ionization by energetic particle precipitation. Significant increases in the intensity of the irregularities within the polar cap region of both hemispheres were associated with the formation and evolution of the storm enhanced density/tongue of ionization structures and polar patches. 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subjects	Density Dynamic tests Dynamics Formations Geodetics Geophysics Global positioning systems GPS Ionization Ionosphere Ionospherics Irregularities Storms
title	Dynamics of the high-latitude ionospheric irregularities during the 17 March 2015St. Patrick's Day storm: Ground-based GPS measurements
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