Bibcode
Solanki, S. K.; Lagg, A.; Woch, J.; Krupp, N.; Collados, M.
Bibliographical reference
Nature, Volume 425, Issue 6959, pp. 692-695 (2003).
Advertised on:
10
2003
Journal
Citations
166
Refereed citations
134
Description
Flares and X-ray jets on the Sun arise in active regions where magnetic
flux emerges from the solar interior amd interacts with the ambient
magnetic field. The interactions are believed to occur in electric
current sheets separating regions of opposite magnetic polarity. The
current sheets located in the corona or upper chromosphere have long
been thought to act as an important source of coronal heating, requiring
their location in the corona or upper chromosphere. The dynamics and
energetics of these sheets are governed by a complex magnetic field
structure that, until now, has been difficult to measure. Here we report
the determination of the full magnetic vector in an interaction region
near the base of the solar corona. The observations reveal two magnetic
features that characterize young active regions on the Sun: a set of
rising magnetic loops and a tangential discontinuity of the magnetic
field direction, the latter being the observational signature of an
electric current sheet. This provides strong support for coronal heating
models based on the dissipation of magnetic energy at current sheets.