Polar tongue of ionisation during geomagnetic superstorm

Polar tongue of ionisation during geomagnetic superstorm

<p>During the main phase of geomagnetic storms, large positive ionospheric plasma density anomalies arise at middle and polar latitudes. A prominent example is the tongue of ionisation (TOI), which extends poleward from the dayside storm-enhanced density (SED) anomaly, often crossing the polar...

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Main Authors: D. Pokhotelov, I. Fernandez-Gomez, C. Borries
Format: Article
Language:English
Published: Copernicus Publications 2021-09-01
Series:Annales Geophysicae
Online Access:https://angeo.copernicus.org/articles/39/833/2021/angeo-39-833-2021.pdf
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spelling doaj-4a89d0e187e040419533e7043f786bc42021-09-23T09:33:13ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762021-09-013983384710.5194/angeo-39-833-2021Polar tongue of ionisation during geomagnetic superstormD. PokhotelovI. Fernandez-GomezC. Borries<p>During the main phase of geomagnetic storms, large positive ionospheric plasma density anomalies arise at middle and polar latitudes. A prominent example is the tongue of ionisation (TOI), which extends poleward from the dayside storm-enhanced density (SED) anomaly, often crossing the polar cap and streaming with the plasma convection flow into the nightside ionosphere. A fragmentation of the TOI anomaly contributes to the formation of polar plasma patches partially responsible for the scintillations of satellite positioning signals at high latitudes. To investigate this intense plasma anomaly, numerical simulations of plasma and neutral dynamics during the geomagnetic superstorm of 20 November 2003 are performed using the Thermosphere Ionosphere Electrodynamics Global Circulation Model (TIE-GCM) coupled with the statistical parameterisation of high-latitude plasma convection. The simulation results reproduce the TOI features consistently with observations of total electron content and with the results of ionospheric tomography, published previously by the authors. It is demonstrated that the fast plasma uplift, due to the electric plasma convection expanded to subauroral mid-latitudes, serves as a primary feeding mechanism for the TOI anomaly, while a complex interplay between electrodynamic and neutral wind transports is shown to contribute to the formation of a mid-latitude SED anomaly. This contrasts with published simulations of relatively smaller geomagnetic storms, where the impact of neutral dynamics on the TOI formation appears more pronounced. It is suggested that better representation of the high-latitude plasma convection during superstorms is needed. The results are discussed in the context of space weather modelling.</p>https://angeo.copernicus.org/articles/39/833/2021/angeo-39-833-2021.pdf
collection DOAJ
language English
format Article
sources DOAJ
author D. Pokhotelov
I. Fernandez-Gomez
C. Borries
spellingShingle D. Pokhotelov
I. Fernandez-Gomez
C. Borries
Polar tongue of ionisation during geomagnetic superstorm
Annales Geophysicae
author_facet D. Pokhotelov
I. Fernandez-Gomez
C. Borries
author_sort D. Pokhotelov
title Polar tongue of ionisation during geomagnetic superstorm
title_short Polar tongue of ionisation during geomagnetic superstorm
title_full Polar tongue of ionisation during geomagnetic superstorm
title_fullStr Polar tongue of ionisation during geomagnetic superstorm
title_full_unstemmed Polar tongue of ionisation during geomagnetic superstorm
title_sort polar tongue of ionisation during geomagnetic superstorm
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2021-09-01
description <p>During the main phase of geomagnetic storms, large positive ionospheric plasma density anomalies arise at middle and polar latitudes. A prominent example is the tongue of ionisation (TOI), which extends poleward from the dayside storm-enhanced density (SED) anomaly, often crossing the polar cap and streaming with the plasma convection flow into the nightside ionosphere. A fragmentation of the TOI anomaly contributes to the formation of polar plasma patches partially responsible for the scintillations of satellite positioning signals at high latitudes. To investigate this intense plasma anomaly, numerical simulations of plasma and neutral dynamics during the geomagnetic superstorm of 20 November 2003 are performed using the Thermosphere Ionosphere Electrodynamics Global Circulation Model (TIE-GCM) coupled with the statistical parameterisation of high-latitude plasma convection. The simulation results reproduce the TOI features consistently with observations of total electron content and with the results of ionospheric tomography, published previously by the authors. It is demonstrated that the fast plasma uplift, due to the electric plasma convection expanded to subauroral mid-latitudes, serves as a primary feeding mechanism for the TOI anomaly, while a complex interplay between electrodynamic and neutral wind transports is shown to contribute to the formation of a mid-latitude SED anomaly. This contrasts with published simulations of relatively smaller geomagnetic storms, where the impact of neutral dynamics on the TOI formation appears more pronounced. It is suggested that better representation of the high-latitude plasma convection during superstorms is needed. The results are discussed in the context of space weather modelling.</p>
url https://angeo.copernicus.org/articles/39/833/2021/angeo-39-833-2021.pdf
work_keys_str_mv AT dpokhotelov polartongueofionisationduringgeomagneticsuperstorm
AT ifernandezgomez polartongueofionisationduringgeomagneticsuperstorm
AT cborries polartongueofionisationduringgeomagneticsuperstorm
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