Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations

Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations

This paper presents a statistical study of the equatorward boundary of small-scale field-aligned currents (SSFACs) and investigates the relation between this boundary and the plasmapause (PP). The PP data used for validation were derived from in situ electron density observations of NASA's...

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Main Authors: B. Heilig, H. Lühr
Format: Article
Language:English
Published: Copernicus Publications 2018-04-01
Series:Annales Geophysicae
Online Access:https://www.ann-geophys.net/36/595/2018/angeo-36-595-2018.pdf
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spelling doaj-7999d5cb7ccd4201a65c5a552a0fda392020-11-24T22:37:40ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762018-04-013659560710.5194/angeo-36-595-2018Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observationsB. Heilig0B. Heilig1H. Lühr2Mining and Geological Survey of Hungary, Tihany Geophysical Observatory, 8237, Tihany, HungaryGFZ German Research Centre for Geosciences, Section 2.3 “Geomagnetism”, 14473 Potsdam, GermanyGFZ German Research Centre for Geosciences, Section 2.3 “Geomagnetism”, 14473 Potsdam, GermanyThis paper presents a statistical study of the equatorward boundary of small-scale field-aligned currents (SSFACs) and investigates the relation between this boundary and the plasmapause (PP). The PP data used for validation were derived from in situ electron density observations of NASA's Van Allen Probes. We confirmed the findings of a previous study by the same authors obtained from the observations of the CHAMP satellite SSFAC and the NASA IMAGE satellite PP detections, namely that the two boundaries respond similarly to changes in geomagnetic activity, and they are closely located in the near midnight MLT sector, suggesting a dynamic linkage. Dayside PP correlates with the delayed time history of the SSFAC boundary. We interpreted this behaviour as a direct consequence of co-rotation: the new PP, formed on the night side, propagates to the dayside by rotating with Earth. This finding paves the way toward an efficient PP monitoring tool based on an SSFAC index derived from vector magnetic field observations at low-Earth orbit.https://www.ann-geophys.net/36/595/2018/angeo-36-595-2018.pdf
collection DOAJ
language English
format Article
sources DOAJ
author B. Heilig
B. Heilig
H. Lühr
spellingShingle B. Heilig
B. Heilig
H. Lühr
Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations
Annales Geophysicae
author_facet B. Heilig
B. Heilig
H. Lühr
author_sort B. Heilig
title Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations
title_short Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations
title_full Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations
title_fullStr Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations
title_full_unstemmed Quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from Swarm observations
title_sort quantifying the relationship between the plasmapause and the inner boundary of small-scale field-aligned currents, as deduced from swarm observations
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2018-04-01
description This paper presents a statistical study of the equatorward boundary of small-scale field-aligned currents (SSFACs) and investigates the relation between this boundary and the plasmapause (PP). The PP data used for validation were derived from in situ electron density observations of NASA's Van Allen Probes. We confirmed the findings of a previous study by the same authors obtained from the observations of the CHAMP satellite SSFAC and the NASA IMAGE satellite PP detections, namely that the two boundaries respond similarly to changes in geomagnetic activity, and they are closely located in the near midnight MLT sector, suggesting a dynamic linkage. Dayside PP correlates with the delayed time history of the SSFAC boundary. We interpreted this behaviour as a direct consequence of co-rotation: the new PP, formed on the night side, propagates to the dayside by rotating with Earth. This finding paves the way toward an efficient PP monitoring tool based on an SSFAC index derived from vector magnetic field observations at low-Earth orbit.
url https://www.ann-geophys.net/36/595/2018/angeo-36-595-2018.pdf
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