Evidence for magnetic reconnection in solar flares

Details Evidence for magnetic reconnection in solar flares Evidence for magnetic reconnection in solar flares

Apr 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993a%26a...271..292d&link_type=abstract

Astronomy and Astrophysics, Vol. 271, p. 292 (1993)

Astronomy and Astrophysics

Astrophysics

72

Magnetic Fields, Magnetohydrodynamics (Mhd), The Sun: Flares, The Sun: Magnetic Fields, The Sun: Activity

Scientific paper

From a study of the magnetic field topology in an active region, evidence is derived that solar flares are produced by magnetic reconnection. We study a complex group with two active regions (AR 25 t 1 and AR 2512) for three consecutive days, June 13-15 1980. The observed longitudinal magnetic field is used to model the coronal magnetic field by the potential field created by a series of magnetic charges. This computed field matches satisfactorily the Ho fibrils and the observed transverse field direction. A set of flares occurs principally in the northern group (AR 2511). During these three days, two different magnetic configurations in succession are responsible for the occurrence of these flares: first the intrusion of a new opposite flux in the following polarity, secondly the emergence of new flux between the main polarities. In this last case flares occurred, although the emerging bipole is almost parallel to the main bipole. We show that even in this bipolar configuration a separator is present and that observed H flare ribbons are located near the intersection of the computed separatrices with the photosphere. This provides strong support to a model where reconnection releases the stored magnetic energy. The induced evolution of the magnetic field forces reconnection along others separators. They are connected by magnetic field lines to fainter kernels.

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