Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases

Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases

Sudden impulses (SI) in the tail lobe magnetic field associated with solar wind pressure enhancements are investigated using measurements from Cluster. The magnetic field components during the SIs change in a manner consistent with the assumption that an antisunward moving lateral pressure enhanc...

Full description

Bibliographic Details
Main Authors: K. E. J. Huttunen, J. Slavin, M. Collier, H. E. J. Koskinen, A. Szabo, E. Tanskanen, A. Balogh, E. Lucek, H. Rème
Format: Article
Language:English
Published: Copernicus Publications 2005-02-01
Series:Annales Geophysicae
Online Access:https://www.ann-geophys.net/23/609/2005/angeo-23-609-2005.pdf
id doaj-ccacb69cc5e9453e8cb7b3771c41bd1e
record_format Article
spelling doaj-ccacb69cc5e9453e8cb7b3771c41bd1e2020-11-24T22:31:51ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-05762005-02-012360962410.5194/angeo-23-609-2005Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increasesK. E. J. Huttunen0J. Slavin1M. Collier2H. E. J. Koskinen3H. E. J. Koskinen4A. Szabo5E. Tanskanen6A. Balogh7E. Lucek8H. Rème9Department of Physical Sciences, P.O. Box 64, FIN-00014 University of Helsinki, FinlandLaboratory for Extraterrestial Physics, NASA Goddard Space Flight Center, Greenbelt, MarylandLaboratory for Extraterrestial Physics, NASA Goddard Space Flight Center, Greenbelt, MarylandDepartment of Physical Sciences, P.O. Box 64, FIN-00014 University of Helsinki, FinlandFinnish Meteorological Institute, P.O. Box 503, 00101 Helsinki, FinlandLaboratory for Extraterrestial Physics, NASA Goddard Space Flight Center, Greenbelt, MarylandLaboratory for Extraterrestial Physics, NASA Goddard Space Flight Center, Greenbelt, MarylandBlackett Laboratory, Imperial College, London, EnglandBlackett Laboratory, Imperial College, London, EnglandCentre d’Etude Spatiale des Rayonnements, Toulouse, FranceSudden impulses (SI) in the tail lobe magnetic field associated with solar wind pressure enhancements are investigated using measurements from Cluster. The magnetic field components during the SIs change in a manner consistent with the assumption that an antisunward moving lateral pressure enhancement compresses the magnetotail axisymmetrically. We found that the maximum variance SI unit vectors were nearly aligned with the associated interplanetary shock normals. For two of the tail lobe SI events during which Cluster was located close to the tail boundary, Cluster observed the inward moving magnetopause. During both events, the spacecraft location changed from the lobe to the magnetospheric boundary layer. During the event on 6 November 2001 the magnetopause was compressed past Cluster. We applied the 2-D Cartesian model developed by collier98 in which a vacuum uniform tail lobe magnetic field is compressed by a step-like pressure increase. The model underestimates the compression of the magnetic field, but it fits the magnetic field maximum variance component well. For events for which we could determine the shock normal orientation, the differences between the observed and calculated shock propagation times from the location of WIND/Geotail to the location of Cluster were small. The propagation speeds of the SIs between the Cluster spacecraft were comparable to the solar wind speed. Our results suggest that the observed tail lobe SIs are due to lateral increases in solar wind dynamic pressure outside the magnetotail boundary.https://www.ann-geophys.net/23/609/2005/angeo-23-609-2005.pdf
collection DOAJ
language English
format Article
sources DOAJ
author K. E. J. Huttunen
J. Slavin
M. Collier
H. E. J. Koskinen
H. E. J. Koskinen
A. Szabo
E. Tanskanen
A. Balogh
E. Lucek
H. Rème
spellingShingle K. E. J. Huttunen
J. Slavin
M. Collier
H. E. J. Koskinen
H. E. J. Koskinen
A. Szabo
E. Tanskanen
A. Balogh
E. Lucek
H. Rème
Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
Annales Geophysicae
author_facet K. E. J. Huttunen
J. Slavin
M. Collier
H. E. J. Koskinen
H. E. J. Koskinen
A. Szabo
E. Tanskanen
A. Balogh
E. Lucek
H. Rème
author_sort K. E. J. Huttunen
title Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
title_short Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
title_full Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
title_fullStr Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
title_full_unstemmed Cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
title_sort cluster observations of sudden impulses in the magnetotail caused by interplanetary shocks and pressure increases
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
publishDate 2005-02-01
description Sudden impulses (SI) in the tail lobe magnetic field associated with solar wind pressure enhancements are investigated using measurements from Cluster. The magnetic field components during the SIs change in a manner consistent with the assumption that an antisunward moving lateral pressure enhancement compresses the magnetotail axisymmetrically. We found that the maximum variance SI unit vectors were nearly aligned with the associated interplanetary shock normals. For two of the tail lobe SI events during which Cluster was located close to the tail boundary, Cluster observed the inward moving magnetopause. During both events, the spacecraft location changed from the lobe to the magnetospheric boundary layer. During the event on 6 November 2001 the magnetopause was compressed past Cluster. We applied the 2-D Cartesian model developed by collier98 in which a vacuum uniform tail lobe magnetic field is compressed by a step-like pressure increase. The model underestimates the compression of the magnetic field, but it fits the magnetic field maximum variance component well. For events for which we could determine the shock normal orientation, the differences between the observed and calculated shock propagation times from the location of WIND/Geotail to the location of Cluster were small. The propagation speeds of the SIs between the Cluster spacecraft were comparable to the solar wind speed. Our results suggest that the observed tail lobe SIs are due to lateral increases in solar wind dynamic pressure outside the magnetotail boundary.
url https://www.ann-geophys.net/23/609/2005/angeo-23-609-2005.pdf
work_keys_str_mv AT kejhuttunen clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT jslavin clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT mcollier clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT hejkoskinen clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT hejkoskinen clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT aszabo clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT etanskanen clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT abalogh clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT elucek clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
AT hreme clusterobservationsofsuddenimpulsesinthemagnetotailcausedbyinterplanetaryshocksandpressureincreases
_version_ 1725735942434586624

Similar Items