Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle

The influence of solar wind-magnetosphere interaction on the atmospheric electric field is investigated in connection with the two severe geomagnetic storms during 24th solar cycle. The observation was carried out at Vostok (78°270 S, 106°520 E), Antarctica, during 17–18 March 2013 and 17–18 March 2...

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Main Authors:	Victor, N. Jeni, Kamenetsky, A.V. Frank-, Manu, S., Panneerselvam, C.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2017
Subjects:	Storms St. Patrick’s Day Antarctica Atmospheric electric field Atmospheric electricity Solar cycle 24 Antarc* E. Antarctica
Online Access:	http://14.139.123.141:8080/jspui/handle/123456789/1131

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spelling	ftindinstgeomagn:oai:localhost:123456789/1131 2023-05-15T14:04:08+02:00 Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle Victor, N. Jeni Kamenetsky, A.V. Frank- Manu, S. Panneerselvam, C. 2017 http://14.139.123.141:8080/jspui/handle/123456789/1131 en eng Storms St. Patrick’s Day Antarctica Atmospheric electric field Atmospheric electricity Solar cycle 24 Article 2017 ftindinstgeomagn 2019-11-26T08:39:34Z The influence of solar wind-magnetosphere interaction on the atmospheric electric field is investigated in connection with the two severe geomagnetic storms during 24th solar cycle. The observation was carried out at Vostok (78°270 S, 106°520 E), Antarctica, during 17–18 March 2013 and 17–18 March 2015. Two consecutive substorms were observed at Vostok during the main phase of geomagnetic storms, where the disturbed ionospheric current is antisunward in the morning sector (~04:00–10:00 UT) and sunward in the noon-afternoon sector (~11:00–16:00 UT). Interplanetary magnetic field (IMF) and solar wind interaction enhance the ionospheric potential, which in turn couple with Potential Gradient (PG) measured at ground level. Eventually, for the first time, the slope of ~1.0 Vm1 per kV has been demonstrated between Vostok PG and overhead ionospheric potential (Weimer_05) during intense (Kp = 8) geomagnetic perturbation. The linear relation between PG and overhead potential is highly significant on positive coupling, i.e., positive ΔPG changes, whereas the offset of ~25 V/m has been estimated with negative coupling. Ionospheric convection map from Super Dual Auroral Radar Network is more compatible with PG on positive coupling, and for negative changes of PG, radar observation is more consistent than the Weimer_05 model. Ionospheric electric potential from radar observation and empirical model is highly compromised when a polar cap is dominated by a single negative potential region associated with IMF By ≪ 0. It is inferred that superposed overhead ionospheric potential on Vostok PG is highly effective when IMF maintained a steady flow, whereas it is less significance for rapid changes of solar wind-IMF parameters. Article in Journal/Newspaper Antarc* Antarctica E. Antarctica Indian Institute of Geomagnetism (IIG): Repository
institution	Open Polar
collection	Indian Institute of Geomagnetism (IIG): Repository
op_collection_id	ftindinstgeomagn
language	English
topic	Storms St. Patrick’s Day Antarctica Atmospheric electric field Atmospheric electricity Solar cycle 24
spellingShingle	Storms St. Patrick’s Day Antarctica Atmospheric electric field Atmospheric electricity Solar cycle 24 Victor, N. Jeni Kamenetsky, A.V. Frank- Manu, S. Panneerselvam, C. Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle
topic_facet	Storms St. Patrick’s Day Antarctica Atmospheric electric field Atmospheric electricity Solar cycle 24
description	The influence of solar wind-magnetosphere interaction on the atmospheric electric field is investigated in connection with the two severe geomagnetic storms during 24th solar cycle. The observation was carried out at Vostok (78°270 S, 106°520 E), Antarctica, during 17–18 March 2013 and 17–18 March 2015. Two consecutive substorms were observed at Vostok during the main phase of geomagnetic storms, where the disturbed ionospheric current is antisunward in the morning sector (~04:00–10:00 UT) and sunward in the noon-afternoon sector (~11:00–16:00 UT). Interplanetary magnetic field (IMF) and solar wind interaction enhance the ionospheric potential, which in turn couple with Potential Gradient (PG) measured at ground level. Eventually, for the first time, the slope of ~1.0 Vm1 per kV has been demonstrated between Vostok PG and overhead ionospheric potential (Weimer_05) during intense (Kp = 8) geomagnetic perturbation. The linear relation between PG and overhead potential is highly significant on positive coupling, i.e., positive ΔPG changes, whereas the offset of ~25 V/m has been estimated with negative coupling. Ionospheric convection map from Super Dual Auroral Radar Network is more compatible with PG on positive coupling, and for negative changes of PG, radar observation is more consistent than the Weimer_05 model. Ionospheric electric potential from radar observation and empirical model is highly compromised when a polar cap is dominated by a single negative potential region associated with IMF By ≪ 0. It is inferred that superposed overhead ionospheric potential on Vostok PG is highly effective when IMF maintained a steady flow, whereas it is less significance for rapid changes of solar wind-IMF parameters.
format	Article in Journal/Newspaper
author	Victor, N. Jeni Kamenetsky, A.V. Frank- Manu, S. Panneerselvam, C.
author_facet	Victor, N. Jeni Kamenetsky, A.V. Frank- Manu, S. Panneerselvam, C.
author_sort	Victor, N. Jeni
title	Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle
title_short	Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle
title_full	Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle
title_fullStr	Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle
title_full_unstemmed	Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle
title_sort	variation of atmospheric electric field measured at vostok, antarctica, during st. patrick’s day storms on 24th solar cycle
publishDate	2017
url	http://14.139.123.141:8080/jspui/handle/123456789/1131
genre	Antarc* Antarctica E. Antarctica
genre_facet	Antarc* Antarctica E. Antarctica
_version_	1766275148587991040

Variation of atmospheric electric field measured at Vostok, Antarctica, during St. Patrick’s Day storms on 24th solar cycle

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