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A&A 392, 1105-1118 (2002)
DOI: 10.1051/0004-6361:20020902
On the brightness and velocity structure of solar granulation
J. HirzbergerInstitut für Geophysik, Astrophysik und Meteorologie, Universitätsplatz 5, 8010 Graz, Austria
(Received 22 April 2002 / Accepted 14 June 2002)
Abstract
A 45 min time series of two-dimensional spectra has been
obtained with the Vacuum Tower Telescope at the Observatorio del
Teide in Izaña, Tenerife. Scans over the non-magnetic
Å line of a quiet granular field at disk
center were taken simultaneously with a time series of broad band
images. From the spectra intensity and velocity maps have been
calculated at different line-depths. From the white light images
granular shapes have been computed by means of an automatic image
segmentation algorithm. A statistical analysis of the intensity and
velocity distribution in the detected granular shapes has been
carried out. Intensities and velocities are well correlated at low
photospheric levels. In the higher photosphere the intensity pattern
dissolves whereas the velocities show almost no variation within
the probed height interval. The intensity excess of small granules
dissolves at lower heights than that of larger ones. The intensity
and velocity distribution within the granules depends on the
granular size. In smaller structures the maximum intensities and
velocities are located close to the granular barycenters whereas
for larger granules the maxima are shifted towards the granular
boundaries. The width of the transition zone between granules and
intergranular lanes is independent on the granular intensity and
is constant at approximately
. The time evolution of the
granular pattern shows a clear dependence of the lifetime of
structures on the spatial wavenumber. The
e-folding times of the
temporal coherences decrease according to a power law with an exponent
of
which is incompatible with the Kolmogorov energy
spectrum of homogeneous and isotropic turbulence and might be taken
as a hint against the overall turbulent character of granular
motions.
Key words: Sun: photosphere -- Sun: granulation -- techniques: spectroscopic -- techniques: image processing
SIMBAD Objects in preparation
© ESO 2002
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