Bibcode
Alonso, A.; Salaris, M.; Arribas, S.; Martínez-Roger, C.; Asensio Ramos, A.
Referencia bibliográfica
Astronomy and Astrophysics, v.355, p.1060-1072 (2000)
Fecha de publicación:
3
2000
Revista
Número de citas
32
Número de citas referidas
28
Descripción
We present an analysis of radii of giant stars with 6200 K>= T_eff
>= 3800 K based on angular diameters obtained by means of the IRFM
and distances computed from Hipparcos parallaxes. In order to asses the
reliability of IRFM diameters we have considered a selected sample of
stars whose diameters have been directly measured by interferometric
techniques with internal errors below 5%. The intercomparison shows a
fairly good consistency and no systematic differences against
temperature are apparent in the analysis. By averaging the individual
values obtained for a sample of approximately 300 stars, we present mean
values of linear radii of giants of solar metallicity; the results are
tentatively extended to metal-poor giants. We have also devised a method
to derive distance moduli of globular clusters complementary to the
standard Main Sequence (MS) and Horizontal Branch (HB) fitting. This
method is based on the fit of observed linear radii and effective
temperatures of Red Giant Branch stars of a given globular cluster to
the yields of theoretical isochrones. A careful assessment of the
uncertainty on the derived distances is provided. As expected, the
distances are critically dependent on the value of the mixing length
parameter adopted in the stellar models. We have applied the method to
provide a homogeneous distance scale for a representative sample of
Galactic globular clusters. The comparison of these distances with the
distance scale obtained by means of the MS- or HB-fitting permits a
consistent calibration and/or test of the superadiabatic gradient in
stellar envelopes, independent of the use of colour-T_eff
transformations.