On the relationship between auroral absorption, electrojet currents and plasma convection

In this study, the relationship between auroral absorption, electrojet currents, and ionospheric plasma convection velocity is investigated using a series of new methods where temporal correlations are calculated and analysed for different events and MLT sectors. We employ cosmic noise absorption (C...

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Published in:	Annales Geophysicae
Main Authors:	Kellerman, A. C., Makarevich, R. A., Honary, F., Hansen, T. L.
Format:	Text
Language:	English
Published:	2018
Subjects:	Kilpisjärvi Tromsø EISCAT
Online Access:	https://doi.org/10.5194/angeo-27-473-2009 https://angeo.copernicus.org/articles/27/473/2009/

id	ftcopernicus:oai:publications.copernicus.org:angeo36669
record_format	openpolar
spelling	ftcopernicus:oai:publications.copernicus.org:angeo36669 2023-05-15T16:04:42+02:00 On the relationship between auroral absorption, electrojet currents and plasma convection Kellerman, A. C. Makarevich, R. A. Honary, F. Hansen, T. L. 2018-09-27 application/pdf https://doi.org/10.5194/angeo-27-473-2009 https://angeo.copernicus.org/articles/27/473/2009/ eng eng doi:10.5194/angeo-27-473-2009 https://angeo.copernicus.org/articles/27/473/2009/ eISSN: 1432-0576 Text 2018 ftcopernicus https://doi.org/10.5194/angeo-27-473-2009 2020-07-20T16:26:45Z In this study, the relationship between auroral absorption, electrojet currents, and ionospheric plasma convection velocity is investigated using a series of new methods where temporal correlations are calculated and analysed for different events and MLT sectors. We employ cosmic noise absorption (CNA) observations obtained by the Imaging Riometer for Ionospheric Studies (IRIS) system in Kilpisjärvi, Finland, plasma convection measurements by the European Incoherent Scatter (EISCAT) radar, and estimates of the electrojet currents derived from the Tromsø magnetometer data. The IRIS absorption and EISCAT plasma convection measurements are used as a proxy for the particle precipitation component of the Hall conductance and ionospheric electric field, respectively. It is shown that the electrojet currents are affected by both enhanced conductance and electric field but with the relative importance of these two factors varying with magnetic local time (MLT). The correlation between the current and electric field (absorption) is the highest at 12:00–15:00 MLT (00:00–03:00 MLT). It is demonstrated that the electric-field-dominant region is asymmetric with respect to magnetic-noon-midnight meridian extending from 09:00 to 21:00 MLT. This may be related to the recently reported absence of mirror-symmetry between the effects of positive and negative IMF B y on the high-latitude plasma convection pattern. The conductivity-dominant region is somewhat wider than previously thought extending from 21:00 to 09:00 MLT with correlation slowly declining from midnight towards the morning, which is interpreted as being in part due to high-energy electron clouds gradually depleting and drifting from midnight towards the morning sector. The conductivity-dominant region is further investigated using the extensive IRIS riometer and Tromsø magnetometer datasets with results showing a distinct seasonal dependence. The region of high current-absorption correlation extends from 21:00 to 06:00 MLT near both equinoxes, however, it is narrower and rotated towards the morning (02:00–07:00 MLT) in summer, while in winter the correlation shows much greater variability with MLT. During periods of high current-electric-field correlation, the relationship between electric field and absorption can be described as an inverse proportionality, which can be explained by limitation of the electrojet current by the magnetospheric generator. Possible cases of electron heating absorption are also investigated with absorption showing no obvious dependence on the ion velocity or electron temperature. Text EISCAT Kilpisjärvi Tromsø Copernicus Publications: E-Journals Kilpisjärvi ENVELOPE(20.767,20.767,69.034,69.034) Tromsø Annales Geophysicae 27 2 473 486
institution	Open Polar
collection	Copernicus Publications: E-Journals
op_collection_id	ftcopernicus
language	English
description	In this study, the relationship between auroral absorption, electrojet currents, and ionospheric plasma convection velocity is investigated using a series of new methods where temporal correlations are calculated and analysed for different events and MLT sectors. We employ cosmic noise absorption (CNA) observations obtained by the Imaging Riometer for Ionospheric Studies (IRIS) system in Kilpisjärvi, Finland, plasma convection measurements by the European Incoherent Scatter (EISCAT) radar, and estimates of the electrojet currents derived from the Tromsø magnetometer data. The IRIS absorption and EISCAT plasma convection measurements are used as a proxy for the particle precipitation component of the Hall conductance and ionospheric electric field, respectively. It is shown that the electrojet currents are affected by both enhanced conductance and electric field but with the relative importance of these two factors varying with magnetic local time (MLT). The correlation between the current and electric field (absorption) is the highest at 12:00–15:00 MLT (00:00–03:00 MLT). It is demonstrated that the electric-field-dominant region is asymmetric with respect to magnetic-noon-midnight meridian extending from 09:00 to 21:00 MLT. This may be related to the recently reported absence of mirror-symmetry between the effects of positive and negative IMF B y on the high-latitude plasma convection pattern. The conductivity-dominant region is somewhat wider than previously thought extending from 21:00 to 09:00 MLT with correlation slowly declining from midnight towards the morning, which is interpreted as being in part due to high-energy electron clouds gradually depleting and drifting from midnight towards the morning sector. The conductivity-dominant region is further investigated using the extensive IRIS riometer and Tromsø magnetometer datasets with results showing a distinct seasonal dependence. The region of high current-absorption correlation extends from 21:00 to 06:00 MLT near both equinoxes, however, it is narrower and rotated towards the morning (02:00–07:00 MLT) in summer, while in winter the correlation shows much greater variability with MLT. During periods of high current-electric-field correlation, the relationship between electric field and absorption can be described as an inverse proportionality, which can be explained by limitation of the electrojet current by the magnetospheric generator. Possible cases of electron heating absorption are also investigated with absorption showing no obvious dependence on the ion velocity or electron temperature.
format	Text
author	Kellerman, A. C. Makarevich, R. A. Honary, F. Hansen, T. L.
spellingShingle	Kellerman, A. C. Makarevich, R. A. Honary, F. Hansen, T. L. On the relationship between auroral absorption, electrojet currents and plasma convection
author_facet	Kellerman, A. C. Makarevich, R. A. Honary, F. Hansen, T. L.
author_sort	Kellerman, A. C.
title	On the relationship between auroral absorption, electrojet currents and plasma convection
title_short	On the relationship between auroral absorption, electrojet currents and plasma convection
title_full	On the relationship between auroral absorption, electrojet currents and plasma convection
title_fullStr	On the relationship between auroral absorption, electrojet currents and plasma convection
title_full_unstemmed	On the relationship between auroral absorption, electrojet currents and plasma convection
title_sort	on the relationship between auroral absorption, electrojet currents and plasma convection
publishDate	2018
url	https://doi.org/10.5194/angeo-27-473-2009 https://angeo.copernicus.org/articles/27/473/2009/
long_lat	ENVELOPE(20.767,20.767,69.034,69.034)
geographic	Kilpisjärvi Tromsø
geographic_facet	Kilpisjärvi Tromsø
genre	EISCAT Kilpisjärvi Tromsø
genre_facet	EISCAT Kilpisjärvi Tromsø
op_source	eISSN: 1432-0576
op_relation	doi:10.5194/angeo-27-473-2009 https://angeo.copernicus.org/articles/27/473/2009/
op_doi	https://doi.org/10.5194/angeo-27-473-2009
container_title	Annales Geophysicae
container_volume	27
container_issue	2
container_start_page	473
op_container_end_page	486
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On the relationship between auroral absorption, electrojet currents and plasma convection

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