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A Multi-spacecraft View of a Giant Filament Eruption during 2009 September 26/27

TitreA Multi-spacecraft View of a Giant Filament Eruption during 2009 September 26/27
Type de publicationJournal Article
Year of Publication2012
AuteursGosain, S, Schmieder, B, Artzner, G, Bogachev, S, Török, T
JournalThe Astrophysical Journal
Volume761
Pagination25
Date PublishedDecember 1, 2012
Mots-clésprominences, Sun: activity, Sun: coronal mass ejections: CMEs, Sun: filaments
Résumé

We analyze multi-spacecraft observations of a giant filament eruption that occurred during 2009 September 26 and 27. The filament eruption was associated with a relatively slow coronal mass ejection. The filament consisted of a large and a small part, and both parts erupted nearly simultaneously. Here we focus on the eruption associated with the larger part of the filament. The STEREO satellites were separated by about 117° during this event, so we additionally used SoHO/EIT and CORONAS/TESIS observations as a third eye (Earth view) to aid our measurements. We measure the plane-of-sky trajectory of the filament as seen from STEREO-A and TESIS viewpoints. Using a simple trigonometric relation, we then use these measurements to estimate the true direction of propagation of the filament which allows us to derive the true R/R &sun;-time profile of the filament apex. Furthermore, we develop a new tomographic method that can potentially provide a more robust three-dimensional (3D) reconstruction by exploiting multiple simultaneous views. We apply this method also to investigate the 3D evolution of the top part of filament. We expect this method to be useful when SDO and STEREO observations are combined. We then analyze the kinematics of the eruptive filament during its rapid acceleration phase by fitting different functional forms to the height-time data derived from the two methods. We find that for both methods an exponential function fits the rise profile of the filament slightly better than parabolic or cubic functions. Finally, we confront these results with the predictions of theoretical eruption models.

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