M. Dell'Omodarme, G. Valle, S. Degl'Innocenti, P. G. Prada Moroni
The last decade showed an impressive observational effort from the
photometric and spectroscopic point of view for ancient stellar clusters in our
Galaxy and beyond. The theoretical interpretation of these new observational
results requires updated evolutionary models and isochrones spanning a wide
range of chemical composition. With this aim we built the new "Pisa Stellar
Evolution Database" of stellar models and isochrones by adopting a well-tested
evolutionary code (FRANEC) implemented with updated physical and chemical
inputs. In particular, our code adopts realistic atmosphere models and an
updated equation of state, nuclear reaction rates and opacities calculated with
recent solar elements mixture. A total of 32646 models have been computed in
the range of initial masses 0.30 - 1.10 Msun for a grid of 216 chemical
compositions with the fractional metal abundance in mass, Z, ranging from
0.0001 to 0.01, and the original helium content, Y, from 0.25 to 0.42. Models
were computed for both solar-scaled and alpha-enhanced abundances with
different external convection efficiencies. Correspondingly, 9720 isochrones
were computed in the age range 8 - 15 Gyr, in time steps of 0.5 Gyr. The whole
database is available to the scientific community on the web. Models and
isochrones were compared with recent calculations available in the literature
and with the color-magnitude diagram of selected Galactic globular clusters.
The dependence of relevant evolutionary quantities on the chemical composition
and convection efficiency were analyzed in a quantitative statistical way and
analytical formulations were made available for reader's convenience.
View original:
http://arxiv.org/abs/1202.4864
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