Magnetic field topology of an active region

The global 3‐dimensional topology of the magnetic field of the weakly flaring active region AR 5420 in the early phase has been estimated using a series of photospheric longitudinal and vector magnetogams together with Hα filtergrams and white‐light images. As a physical model for this task, we have used the assumption ofa force‐free magnetic field character. An arcade‐like structure of the magnetic field has been identified in the preflare phase with an apparent sheared configuration already present in the current‐free field case. This system might have been an important source of generation of a field‐aligned current system for the eruptions that followed. That was, in particular, suggeted by a significant extension of the active region area in the observation period from June 22 to 25, 1984, that resulted in a stronger shear of the detected arcade‐like system. The atmospheric electric currents generated in such a way and the transition triggered by a large‐amplitude perturbation generated by new flux emergences on June 23 at this place together might be the reason of the sequence of flares observed. Despite the changes in the Hα structure, the global force‐free character of the field did not change significantly over the time of observations. The invariance (in the first order) of the force‐free (nearly current‐free) character of the magnetic field is consistent with the occurrence of relatively small flares only.