Bibcode
Louis, R. E.; Bellot Rubio, L. R.; de la Cruz Rodríguez, J.; Socas-Navarro, H.; Ortiz, A.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 584, id.A1, 11 pp.
Fecha de publicación:
12
2015
Revista
Número de citas
28
Número de citas referidas
27
Descripción
Context. Light bridges are convective intrusions in sunspots that often
show enhanced chromospheric activity. Aims: We seek to determine
the nature of flux emergence in a light bridge and the processes related
to its evolution in the solar atmosphere. Methods: We analyse a
sequence of high-resolution spectropolarimetric observations of a
sunspot taken at the Swedish 1-m Solar Telescope. The data consist of
spectral scans of the photospheric Fe i line pair at 630 nm and the
chromospheric Ca ii 854.2 nm line. Bisectors were used to construct
Dopplergrams from the Fe i 630.15 nm measurements. We employed LTE and
non-LTE inversions to derive maps of physical parameters in the
photosphere and chromosphere, respectively. Results: We observe
the onset of blueshifts of about 2 km s-1 near the entrance
of a granular light bridge on the limbward side of the spot. The
blueshifts lie immediately next to a strongly redshifted patch that
appeared six minutes earlier. Both patches can be seen for 25 min until
the end of the sequence. The blueshifts coincide with an elongated
emerging granule, while the redshifts appear at the end of the granule.
In the photosphere, the development of the blueshifts is accompanied by
a simultaneous increase in field strength of about 400 G. The field
inclination increases by some 25°, becoming nearly horizontal. At
the position of the redshifts, the magnetic field is equally horizontal
but of opposite polarity. An intense brightening is seen in the Ca ii
filtergrams over the blueshifts and redshifts, about 17 min after their
detection in the photosphere. The brightening is due to emission in the
blue wing of the Ca ii 854.2 nm line, close to its knee. Non-LTE
inversions reveal that this kind of asymmetric emission is caused by a
temperature enhancement of ~700 K between -5.0 ≤ log τ ≤ -3.0
and a blueshift of 3 km s-1 at log τ = -2.3 that
decreases to zero at log τ = -6.0 Conclusions: The
photospheric blueshifts and redshifts observed in a granular light
bridge seem to be caused by the emergence of a small-scale, flat
Ω-loop with highly inclined footpoints of opposite polarity that
brings new magnetic field to the surface. The gas motions detected in
the two footpoints are reminiscent of a siphon flow. The rising loop is
probably confined to the lower atmosphere by the overlying sunspot
magnetic field and the interaction between the two flux systems may be
responsible for temperature enhancements in the upper photosphere/lower
chromosphere. This is the first time that magnetic flux is observed to
emerge in the strongly magnetised environment of sunspots, pushed
upwards by the convective flows of a granular light bridge.
The movie associated to Fig. 2 is available in electronic form at http://www.aanda.org
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