EDP Sciences
Free Access
Volume 400, Number 3, March IV 2003
Page(s) 823 - 840
Section Galactic structure and dynamics
DOI https://doi.org/10.1051/0004-6361:20021723
Published online 07 March 2003

A&A 400, 823-840 (2003)
DOI: 10.1051/0004-6361:20021723

Integrated spectroscopy of bulge globular clusters and fields

II. Implications for population synthesis models and elliptical galaxies
C. Maraston1, 2, L. Greggio2, 3, A. Renzini4, S. Ortolani3, R. P. Saglia2, T. H. Puzia2 and M. Kissler-Patig4

1  Max-Planck-Institut für Extraterrestrische Physik, Giessenbachstraße, 85748 Garching b. München, Germany
2  Universitäts-Sternwarte München, Scheinerstr. 1, 81679 München, Germany
3  Osservatorio Astronomico di Padova, vicolo dell'Osservatorio, Padova, Italy
4  European Southern Observatory, Karl-Schwarzschild-Str. 2, 85748 Garching, Germany

(Received 9 September 2002 / Accepted 18 November 2002)

An empirical calibration is presented for the synthetic Lick indices (e.g. Mg 2, <Fe>, H $\beta$, etc.) of Simple Stellar Population (SSP) models that for the first time extends up to solar metallicity. This is accomplished by means of a sample of Milky Way globular clusters (GCs) whose metallicities range from ~ ${\mathrm Z}_{\odot}/30$ to $Z\sim{\mathrm Z}_{\odot}$, thanks to the inclusion of several metal rich clusters belonging to the Galactic bulge (e.g., NGC 6553 and NGC 6528). This metallicity range approaches the regime that is relevant for the interpretation of the integrated spectra of elliptical galaxies. It is shown that the spectra of both the globular clusters and the Galactic bulge follow the same correlation between magnesium and iron indices that extends to elliptical galaxies, showing weaker iron indices at given magnesium indices with respect to the predictions of models that assume solar-scaled abundances. This similarity provides robust empirical evidence for enhanced [ $\alpha$/Fe]  ratios in the stellar populations of elliptical galaxies, since the globular clusters are independently known to have enhanced [ $\alpha$/Fe]  ratios from spectroscopy of individual stars. We check the uniqueness of this $\alpha$-overabundance solution by exploring the whole range of model ingredients and parameters, i.e. fitting functions, stellar tracks, and the initial mass function (IMF). We argue that the standard models (meant for solar abundance ratios) succeed in reproducing the Mg-Fe correlation at low metallicities ( $[Z/H]\lesssim -0.7$) because the stellar templates used in the synthesis are Galactic halo stars that actually are $\alpha$-enhanced. The same models, however, fail to predict the observed Mg-Fe pattern at higher metallicities ( $[Z/H]
\gtrsim -0.7$ ) (i.e., for bulge clusters and ellipticals alike) because the high-metallicity templates are disk stars that are not $\alpha$-enhanced. We show that the new set of SSP models which incorporates the dependence on the [ $\alpha$/Fe]   ratio (Thomas et al. 2003) is able to reproduce the Mg and Fe indices of GCs at all metallicities, with an $\alpha$-enhancement  $\alpha$/Fe=+0.3, in agreement with the available spectroscopic determinations. The H $\beta$ index and the higher-order Balmer indices are well calibrated, provided the appropriate morphology of the Horizontal Branch is taken into account. In particular, the Balmer line indices of the two metal rich clusters NGC 6388 and NGC 6441, which are known to exhibit a tail of warm Horizontal Branch stars, are well reproduced. Finally, we note that the Mg indices of very metal-poor ( $[Z/H]\lesssim -1.8$) populations are dominated by the contribution of the lower Main Sequence, hence are strongly affected by the present-day mass function of individual globular clusters, which is known to vary from cluster to cluster due to dynamical effects.

Key words: Galaxy: globular clusters: general -- galaxies: ellipticals and lenticular, cD -- galaxies: abundances -- galaxies: evolution -- galaxies: formation

Offprint request: C. Maraston, maraston@mpe.mpg.de

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© ESO 2003

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