Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes

Two interacting high‐speed solar wind streams (HSSs) and associated stream interaction regions (SIR) caused a moderate geomagnetic storm during 14–20 March 2016. The spatio‐temporal evolution of the total electron content (TEC) during the storm is studied by using Global Navigation Satellite System...

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Main Authors: Geethakumari, G. P., Aikio, A. T., Cai, L., Vanhamäki, H., Virtanen, I. I., Coster, A., Marchaudon, A., Blelly, P.‐L., Maute, A., Norberg, J., Oyama, S., Zhang, Y., Kunduri, B. S. R.
Other Authors: Ilmatieteen laitos, Finnish Meteorological Institute
Format: Article in Journal/Newspaper
Language:English
Published: John Wiley & Sons 2025
Subjects:
solar wind
auroras
polar regions
satellite navigation
magnetosphere
storms
aurinkotuuli
revontulet
napa-alueet
satelliittipaikannus
magnetosfääri
myrskyt
Revontulet
Online Access:http://hdl.handle.net/10138/591323
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author Geethakumari, G. P.
Aikio, A. T.
Cai, L.
Vanhamäki, H.
Virtanen, I. I.
Coster, A.
Marchaudon, A.
Blelly, P.‐L.
Maute, A.
Norberg, J.
Oyama, S.
Zhang, Y.
Kunduri, B. S. R.
author2 Ilmatieteen laitos
Finnish Meteorological Institute
author_facet Geethakumari, G. P.
Aikio, A. T.
Cai, L.
Vanhamäki, H.
Virtanen, I. I.
Coster, A.
Marchaudon, A.
Blelly, P.‐L.
Maute, A.
Norberg, J.
Oyama, S.
Zhang, Y.
Kunduri, B. S. R.
author_sort Geethakumari, G. P.
collection HELDA – University of Helsinki Open Repository
description Two interacting high‐speed solar wind streams (HSSs) and associated stream interaction regions (SIR) caused a moderate geomagnetic storm during 14–20 March 2016. The spatio‐temporal evolution of the total electron content (TEC) during the storm is studied by using Global Navigation Satellite System (GNSS) data. The moderate storm caused significant and long‐lasting changes on TEC within the polar cap (70°–90° MLAT), at auroral and sub‐auroral latitudes (60°–70° MLAT), and at mid‐latitudes (40°–60° MLAT). A 25%–50% depletion in TEC was observed for six days in the day, dusk and dawn sectors in the polar cap region and in the day and dusk sectors at the auroral and sub‐auroral latitudes. Sub‐auroral polarization streams observed by the Defense Meteorological Satellite Program satellite contributed to the sub‐auroral dusk TEC decreases. At mid‐latitudes, TEC depletion was observed in all local time sectors 21 hr after the storm onset. It is suggested that ion‐neutral frictional heating causes the TEC depletions, which is further supported by the observed spatial correlation between TEC depletions and ∑O/N2 decreases at mid‐latitudes observed by TIMED/GUVI. The storm induced a prolonged positive phase at mid‐latitudeslasting 9 hr. In the polar cap, enhancements of TEC up to 200% were caused by polar cap patches. TEC increases were the dominant feature in the night and morning sectors within the auroral oval because of particle precipitation and resulted up to regionally averaged 6 TECU (200%) increases.
format Article in Journal/Newspaper
genre Revontulet
genre_facet Revontulet
id ftunivhelsihelda:oai:helda.helsinki.fi:10138/591323
institution Open Polar
language English
op_collection_id ftunivhelsihelda
op_relation Journal of geophysical research : space physics
10.1029/2024ja033192
2169-9380
2169-9402
12
129
115033
http://hdl.handle.net/10138/591323
op_rights CC BY 4.0
publishDate 2025
publisher John Wiley & Sons
record_format openpolar
spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/591323 2025-03-02T15:36:33+00:00 Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes Geethakumari, G. P. Aikio, A. T. Cai, L. Vanhamäki, H. Virtanen, I. I. Coster, A. Marchaudon, A. Blelly, P.‐L. Maute, A. Norberg, J. Oyama, S. Zhang, Y. Kunduri, B. S. R. Ilmatieteen laitos Finnish Meteorological Institute 2025-01-28T19:49:23Z application/pdf http://hdl.handle.net/10138/591323 en eng John Wiley & Sons Journal of geophysical research : space physics 10.1029/2024ja033192 2169-9380 2169-9402 12 129 115033 http://hdl.handle.net/10138/591323 CC BY 4.0 solar wind auroras polar regions satellite navigation magnetosphere storms aurinkotuuli revontulet napa-alueet satelliittipaikannus magnetosfääri myrskyt A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä A1 Journal article (refereed), original research publishedVersion 2025 ftunivhelsihelda 2025-02-03T01:46:39Z Two interacting high‐speed solar wind streams (HSSs) and associated stream interaction regions (SIR) caused a moderate geomagnetic storm during 14–20 March 2016. The spatio‐temporal evolution of the total electron content (TEC) during the storm is studied by using Global Navigation Satellite System (GNSS) data. The moderate storm caused significant and long‐lasting changes on TEC within the polar cap (70°–90° MLAT), at auroral and sub‐auroral latitudes (60°–70° MLAT), and at mid‐latitudes (40°–60° MLAT). A 25%–50% depletion in TEC was observed for six days in the day, dusk and dawn sectors in the polar cap region and in the day and dusk sectors at the auroral and sub‐auroral latitudes. Sub‐auroral polarization streams observed by the Defense Meteorological Satellite Program satellite contributed to the sub‐auroral dusk TEC decreases. At mid‐latitudes, TEC depletion was observed in all local time sectors 21 hr after the storm onset. It is suggested that ion‐neutral frictional heating causes the TEC depletions, which is further supported by the observed spatial correlation between TEC depletions and ∑O/N2 decreases at mid‐latitudes observed by TIMED/GUVI. The storm induced a prolonged positive phase at mid‐latitudeslasting 9 hr. In the polar cap, enhancements of TEC up to 200% were caused by polar cap patches. TEC increases were the dominant feature in the night and morning sectors within the auroral oval because of particle precipitation and resulted up to regionally averaged 6 TECU (200%) increases. Article in Journal/Newspaper Revontulet HELDA – University of Helsinki Open Repository
spellingShingle solar wind
auroras
polar regions
satellite navigation
magnetosphere
storms
aurinkotuuli
revontulet
napa-alueet
satelliittipaikannus
magnetosfääri
myrskyt
Geethakumari, G. P.
Aikio, A. T.
Cai, L.
Vanhamäki, H.
Virtanen, I. I.
Coster, A.
Marchaudon, A.
Blelly, P.‐L.
Maute, A.
Norberg, J.
Oyama, S.
Zhang, Y.
Kunduri, B. S. R.
Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes
title Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes
title_full Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes
title_fullStr Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes
title_full_unstemmed Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes
title_short Total Electron Content Variations During an HSS/SIR‐Driven Geomagnetic Storm at High and Mid Latitudes
title_sort total electron content variations during an hss/sir‐driven geomagnetic storm at high and mid latitudes
topic solar wind
auroras
polar regions
satellite navigation
magnetosphere
storms
aurinkotuuli
revontulet
napa-alueet
satelliittipaikannus
magnetosfääri
myrskyt
topic_facet solar wind
auroras
polar regions
satellite navigation
magnetosphere
storms
aurinkotuuli
revontulet
napa-alueet
satelliittipaikannus
magnetosfääri
myrskyt
url http://hdl.handle.net/10138/591323

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