Bibcode
Borrero, J. M.; Bellot Rubio, L. R.
Referencia bibliográfica
Astronomy and Astrophysics, v.385, p.1056-1072 (2002)
Fecha de publicación:
4
2002
Revista
Número de citas
62
Número de citas referidas
55
Descripción
A two-component model of the solar photosphere is obtained from the
inversion of the intensity profiles of 22 Fe I spectral lines for which
very accurate atomic data (oscillator strengths, central wavelengths,
and collisional broadening parameters) exist. The model is meant to
describe the effects of convective motions in the solar photosphere. It
has been subject to various tests to confront its predictions with
observations of the solar spectrum. The model is able to reproduce the
observed line shifts and equivalent widths of about 800 spectral lines
of iron and other species. It is also capable of matching the observed
center-to-limb variation of the continuum intensity with unprecedented
accuracy. This allows us to determine line-transition parameters from
the fitting of the solar spectrum. Exploratory calculations demonstrate
that the model can be used to derive transition probabilities and
central wavelengths of Fe I and Fe II lines, as well as other elements,
within the uncertainties of the best laboratory measurements.