Magnetic Flux Loss and Flux Transport in a Decaying Active Region

Citations Over TimeTop 18% of 2008 papers

Abstract

We estimate the temporal change of magnetic flux perpendicular to the solar surface in a decaying active region by using a time series of the spatial distribution of vector magnetic fields in the photosphere. The vector magnetic fields are derived from full spectropolarimetric measurements with the Solar Optical Telescope aboard Hinode. We compare a magnetic flux loss rate to a flux transport rate in a decaying sunspot and its surrounding moat region. The amount of magnetic flux that decreases in the sunspot and moat region is very similar to magnetic flux transported to the outer boundary of the moat region. The flux loss rates [$(dF/dt)_{loss}$] of magnetic elements with positive and negative polarities are balanced each other around the outer boundary of the moat region. These results suggest that most of the magnetic flux in the sunspot is transported to the outer boundary of the moat region as moving magnetic features, and then removed from the photosphere by flux cancellation around the outer boundary of the moat region.

Related Papers

• → Sunspot pair formation by the photospheric dynamo process(1984)9 cited
• → Large-scale structure of a sunspot and its surrounding photosphere(1986)1 cited
• → The Formation of a Moat Around a Sunspot as Observed on Longitudinal–Field Magnetograms (?)(1993)
• Evolution of Sunspots based on Vector Magnetogram and H-Beta Filtergram Observation(1996)