Wavelet analysis of the magnetotail response to solar wind fluctuations during HILDCAA events

Wavelet analysis of the magnetotail response to solar wind fluctuations during HILDCAA events

In this work a study of the effects of the high-intensity long-duration continuous AE activity (HILDCAAs) events in the magnetotail was conducted. The aim of this study was to search the main frequencies during HILDCAAs in the Bx component of the geomagnetic field in the magnetotail, as well as the...

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Bibliographic Details
Published in:Annales geophysicae (1988) Vol. 37; no. 5; pp. 919 - 929
Main Authors: Marques de Souza Franco, Adriane, Echer, Ezequiel, José Alves Bolzan, Mauricio
Format: Journal Article
Language:English
Published: Katlenburg-Lindau Copernicus GmbH 09-10-2019
Copernicus Publications
Subjects:
Analysis
Cluster spacecraft
Clusters
Correlation
Correlation analysis
Duration
Fluctuations
Geomagnetic field
Geomagnetic fields
Geomagnetism
Magnetism
Magnetosphere
Magnetospheres
Magnetotails
Solar wind
Spacecraft
Wavelet analysis
Wavelet transforms
Wind fluctuations
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Summary:In this work a study of the effects of the high-intensity long-duration continuous AE activity (HILDCAAs) events in the magnetotail was conducted. The aim of this study was to search the main frequencies during HILDCAAs in the Bx component of the geomagnetic field in the magnetotail, as well as the main frequencies, at which the magnetotail responds to the solar wind during these events. In order to conduct this analysis the wavelet transform was employed during nine HILDCAA events that coincided with Cluster spacecraft mission crossing through the tail of the magnetosphere from 2003 to 2007. The most energetic periods for each event were identified. It was found that 76 % of them have periods ≤4 h. With the aim to search the periods that have the highest correlation between the IMF Bz (OMNI) component and the Cluster Bx geomagnetic field component, the cross wavelet analysis technique was also used in this study. The majority of correlation periods between the Bz (IMF) and Bx component of the geomagnetic field observed also were ≤4 h, with 62.9 % of the periods. Thus the magnetotail responds stronger to IMF fluctuations during HILDCCAS at 2–4 h scales, which are typical substorm periods. The results obtained in this work show that these scales are the ones on which the coupling of energy is stronger, as well as the modulation of the magnetotail by the solar wind during HILDCAA events.
ISSN:1432-0576
0992-7689
1432-0576
DOI:10.5194/angeo-37-919-2019