Localized fast flow disturbance observed in the plasma sheet and in the ionosphere

Localized fast flow disturbance observed in the plasma sheet and in the ionosphere

An isolated plasma sheet flow burst took place at 22:02 UT, 1 September 2002, when the Cluster footpoint was located within the area covered by the Magnetometers-Ionospheric Radars-All-sky Cameras Large Experiment (MIRACLE). The event was associated with a clear but weak ionospheric dis...

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Main Authors: R. Nakamura, O. Amm, H. Laakso, N. C. Draper, M. Lester, A. Grocott, B. Klecker, I. W. McCrea, A. Balogh, H. Rème, M. André
Format: Article
Language:English
Published: Copernicus Publications 2005-02-01
Series:Annales Geophysicae
Online Access:https://www.ann-geophys.net/23/553/2005/angeo-23-553-2005.pdf
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spelling doaj-1aacccd99b2a46bbb3331cdd5f7e024e2020-11-25T00:49:54ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762005-02-012355356610.5194/angeo-23-553-2005Localized fast flow disturbance observed in the plasma sheet and in the ionosphereR. Nakamura0O. Amm1H. Laakso2N. C. Draper3M. Lester4A. Grocott5B. Klecker6I. W. McCrea7A. Balogh8H. Rème9M. André10Inst. für Weltraumforschung der Österreichischen Akademie der Wissenschaften, A-8042, Graz, AustriaFinnish Meteorological Institute, Space Research, FIN-00101 Helsinki, FinlandSolar and Solar Terrestrial Missions Div., ESTEC, 2200 AG Noordwijk, The NetherlandsRadio and Space Plasma Physics Group, Dept. of Phys. and Astron., Leicester LE17RH, UKRadio and Space Plasma Physics Group, Dept. of Phys. and Astron., Leicester LE17RH, UKRadio and Space Plasma Physics Group, Dept. of Phys. and Astron., Leicester LE17RH, UKMax-Planck Inst. für Extraterrestrische Physik, D-85748 Garching, GermanySpace Science and Technology Dept., Rutherford Appleton Lab., Chilton, Didcot, Oxon OX11QX, UKSpace and Atmospheric Phys. Group, Blackett Lab., Imperial College, London SW72BZ, UKCentre d’Etude Spatiale des Rayonnements, F-31028 Toulouse Cedex 4, FranceSwedish Institute of Space Physics, SE-75121 Uppsala, SwedenAn isolated plasma sheet flow burst took place at 22:02 UT, 1 September 2002, when the Cluster footpoint was located within the area covered by the Magnetometers-Ionospheric Radars-All-sky Cameras Large Experiment (MIRACLE). The event was associated with a clear but weak ionospheric disturbance and took place during a steady southward IMF interval, about 1h preceding a major substorm onset. Multipoint observations, both in space and from the ground, allow us to discuss the temporal and spatial scale of the disturbance both in the magnetosphere and ionosphere. Based on measurements from four Cluster spacecraft it is inferred that Cluster observed the dusk side part of a localized flow channel in the plasma sheet with a flow shear at the front, suggesting a field-aligned current out from the ionosphere. In the ionosphere the equivalent current pattern and possible field-aligned current location show a pattern similar to the auroral streamers previously obtained during an active period, except for its spatial scale and amplitude. It is inferred that the footpoint of Cluster was located in the region of an upward field-aligned current, consistent with the magnetospheric observations. The entire disturbance in the ionosphere lasted about 10min, consistent with the time scale of the current sheet disturbance in the magnetosphere. The plasma sheet bulk flow, on the other hand, had a time scale of about 2min, corresponding to the time scale of an equatorward excursion of the enhanced electrojet. These observations confirm that localized enhanced convection in the magnetosphere and associated changes in the current sheet structure produce a signature with consistent temporal and spatial scale at the conjugate ionosphere.https://www.ann-geophys.net/23/553/2005/angeo-23-553-2005.pdf
collection DOAJ
language English
format Article
sources DOAJ
author R. Nakamura
O. Amm
H. Laakso
N. C. Draper
M. Lester
A. Grocott
B. Klecker
I. W. McCrea
A. Balogh
H. Rème
M. André
spellingShingle R. Nakamura
O. Amm
H. Laakso
N. C. Draper
M. Lester
A. Grocott
B. Klecker
I. W. McCrea
A. Balogh
H. Rème
M. André
Localized fast flow disturbance observed in the plasma sheet and in the ionosphere
Annales Geophysicae
author_facet R. Nakamura
O. Amm
H. Laakso
N. C. Draper
M. Lester
A. Grocott
B. Klecker
I. W. McCrea
A. Balogh
H. Rème
M. André
author_sort R. Nakamura
title Localized fast flow disturbance observed in the plasma sheet and in the ionosphere
title_short Localized fast flow disturbance observed in the plasma sheet and in the ionosphere
title_full Localized fast flow disturbance observed in the plasma sheet and in the ionosphere
title_fullStr Localized fast flow disturbance observed in the plasma sheet and in the ionosphere
title_full_unstemmed Localized fast flow disturbance observed in the plasma sheet and in the ionosphere
title_sort localized fast flow disturbance observed in the plasma sheet and in the ionosphere
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2005-02-01
description An isolated plasma sheet flow burst took place at 22:02 UT, 1 September 2002, when the Cluster footpoint was located within the area covered by the Magnetometers-Ionospheric Radars-All-sky Cameras Large Experiment (MIRACLE). The event was associated with a clear but weak ionospheric disturbance and took place during a steady southward IMF interval, about 1h preceding a major substorm onset. Multipoint observations, both in space and from the ground, allow us to discuss the temporal and spatial scale of the disturbance both in the magnetosphere and ionosphere. Based on measurements from four Cluster spacecraft it is inferred that Cluster observed the dusk side part of a localized flow channel in the plasma sheet with a flow shear at the front, suggesting a field-aligned current out from the ionosphere. In the ionosphere the equivalent current pattern and possible field-aligned current location show a pattern similar to the auroral streamers previously obtained during an active period, except for its spatial scale and amplitude. It is inferred that the footpoint of Cluster was located in the region of an upward field-aligned current, consistent with the magnetospheric observations. The entire disturbance in the ionosphere lasted about 10min, consistent with the time scale of the current sheet disturbance in the magnetosphere. The plasma sheet bulk flow, on the other hand, had a time scale of about 2min, corresponding to the time scale of an equatorward excursion of the enhanced electrojet. These observations confirm that localized enhanced convection in the magnetosphere and associated changes in the current sheet structure produce a signature with consistent temporal and spatial scale at the conjugate ionosphere.
url https://www.ann-geophys.net/23/553/2005/angeo-23-553-2005.pdf
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