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Abstract

By means of theoretical color T_eff transformations by Kurucz and by Allard, we have derived M_I versus V-I data to be compared with globular clusters and nearby subdwarf data. We show that the characteristic "double kink" shape of the M_I versus V-I diagram is well reproduced by the models, although better agreement would have been obtained if the V-I theoretical colors were redder by ˜0.1 mag.

We then discuss the mass-luminosity relation, particularly in correspondence with the kinks, since they turn out to be critical in establishing the luminosity functions (LFs) of the observed sets of stars. We present tables of the mass-M_I-V-I relations, which can be used for comparisons with observed LFs.

We also discuss the general features of the luminosity functions obtained from these models assuming simple analytic mass functions of different power-law slope. We find that all the LFs peak in the range 8 ≤ M_I < 10, the magnitude of the maximum increasing both with Z and with the power-law exponent in the mass function. As an example, we compare our results with the recent Hubble Space Telescope observational results by Paresce et al. for the globular cluster NGC 6397.

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