Bibcode
DOI
Martinez Pillet, V.; Lites, B. W.; Skumanich, A.
Bibliographical reference
Astrophysical Journal v.474, p.810
Advertised on:
1
1997
Citations
191
Refereed citations
172
Description
We present observations taken with the Advanced Stokes Polarimeter (ASP)
in active-region plages and study the frequency distribution of the
magnetic field strength (B), inclination with respect to vertical (
gamma ), azimuthal orientation ( chi ), and filling factor (f). The most
common values at disk center are B = 1400 G, gamma < 10 deg, no
preferred east-west orientation, and f = 15%. At disk center, there is a
component of weak (<1000 G), more horizontal fields that corresponds
to arching field lines connecting footpoints of different polarities.
The center-to-limb variation (CLV) of the field strength shows that,
close to the limb ( mu = 0.3), the field strength is reduced to 800 G
from its disk-center value. This can be interpreted as a gradient of B
with height in solar plages of around -3 G km-1. From this CLV study, we
also deduce that magnetic field lines remain vertical for the entire
range of heights involved. A similar analysis is performed for
structures found in active regions that show a continuous distribution
of azimuths (resembling sunspots) but that do not have a darkening in
continuum. These "azimuth centers" show slightly larger values of B than
normal plages, in particular at their magnetic center. Filling factors
are also larger on average for these structures. The velocities in the
magnetic component of active regions have been studied for both averaged
Stokes profiles over the entire active region and for the spatially
resolved data. The averaged profiles (more representative of high
filling factor regions) do not show any significant mean velocities.
However, the spatial average of Doppler velocities derived from the
spatially resolved profiles (i.e., unweighted by filling factor) show a
net redshift at disk center of 200 m s-1. The spatially resolved
velocities show a strong dependence on filling factor. Both mean
velocities and standard deviations are reduced when the filling factor
increases. This is interpreted as a reduction of the p-mode amplitude
within the magnetic component. Strong evidence for velocities transverse
to the magnetic field lines has been found. Typical rms values are
between 200 and 300 m s-1, depending on the filling factor. The possible
importance of these transverse motions for the dynamics of the upper
atmospheric layers is discussed. The asymmetries of the Stokes profiles
and their CLV have been studied. The averaged Stokes V profiles show
amplitude and area asymmetries that are positive at disk center and
become negative at the limb. Both asymmetries, and for the two Fe I
lines, are maximized away from disk center. The spatially resolved
amplitude asymmetries show a clear dependence on filling factor: the
larger the filling factor, the smaller the amplitude asymmetry. On the
other hand, the area asymmetry is almost independent of the filling
factor. The only observed dependence is the existence of negative
area-asymmetry profiles at disk center for filling factors smaller than
0.2. Around 20% of the observed points in a given plage have negative
area asymmetry. The amplitude asymmetry of Stokes V is, on the other
hand, always positive. The amplitude asymmetries of the linear
polarization profiles are observed to have the same sign as the Stokes V
profiles. Similarly, the same CLV variation of the linear polarization
amplitude asymmetries as for Stokes V has been found. The scenarios in
which this similarity can exist are studied in some detail.