Relationship between electric currents, photospheric motions, chromospheric activity, and magnetic field topology

Autor:	Brigitte Schmieder, A. Hofmann, Pascal Démoulin, G. Csepura, L. van Driel-Gesztelyi
Rok vydání:	1994
Předmět:	Physics Photosphere Sunspot Solar flare Flux tube Astronomy and Astrophysics Magnetic reconnection Astrophysics Topology Solar prominence law.invention Space and Planetary Science law Physics::Space Physics Astrophysics::Solar and Stellar Astrophysics Chromosphere Flare
Zdroj:	Solar Physics. 149:309-330
ISSN:	1573-093X 0038-0938
DOI:	10.1007/bf00690619
Popis:	Through coordinated observations made during the Max'91 campaign in June 1989 in Potsdam (magnetograms), Debrecen (white light and Hα), and Meudon (MSDP), we follow the evolution of the sunspot group in active region NOAA 5555 for 6 days. The topology of the coronal magnetic field is investigated by using a method based on the concept of separatrices - applied previously (Mandriniet al., 1991) to a magnetic region slightly distorted by field-aligned currents. The present active region differs by having significant magnetic shear. We find that the Hα flare kernels and the main photospheric electric current cells are located close to the intersection of the separatrices with the chromosphere, in a linear force-free field configuration adapted to the observed shear. Sunspot motions, strong currents, isolated polarities, or intersecting separatrices are not in themselves sufficient to produce a flare. A combination of them all is required. This supports the idea that flares are due to magnetic reconnection, when flux tubes with field-aligned currents move towards the separatrix locations.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::28001f2b0fac0567611fe5d32f775093 https://doi.org/10.1007/bf00690619 Zobrazit plný text záznamu Full text from SpringerLink