RESEARCH
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Chemical evolution of the Galactic bulge as traced by microlensed dwarf and subgiant stars
II. Ages, metallicities, detailed elemental abundances, and connections to the Galactic thick disc

T. Bensby, S. Feltzing, J. A. Johnson, A. Gould, D. Adén, M. Asplund, J. Meléndez, A. Gal-Yam, S. Lucatello, H. Sana, T. Sumi, N. Miyake, D. Suzuki, C. Han, I. Bond, A. Udalski

Abstract
Context. The Bulge is the least understood major stellar population of the Milky Way. Most of what we know about the formation and evolution of the Bulge comes from bright giant stars. The underlying assumption that giants represent all the stars, and accurately trace the chemical evolution of a stellar population, is under debate. In particular, recent observations of a few microlensed dwarf stars give a very different picture of the evolution of the Bulge from that given by the giant stars.
Aims. We aim to resolve the apparent discrepancy between Bulge metallicity distributions derived from microlensed dwarf stars and giant stars. Additionally, we aim to put observational constraints on the elemental abundance trends and chemical evolution of the Bulge.
Methods. We perform a detailed elemental abundance analysis of dwarf stars in the Galactic bulge, based on high-resolution spectra that were obtained while the stars were optically magnified during gravitational microlensing events. The analysis method is the same as for a large sample of F and G dwarf stars in the Solar neighbourhood, enabling a fully differential comparison between the Bulge and the local stellar populations in the Galactic disc.
Results. We present detailed elemental abundances and stellar ages for six new dwarf stars in the Galactic bulge. Combining these with previous events, here re-analysed with the same methods, we study a homogeneous sample of 15 stars, which constitute the largest sample to date of microlensed dwarf stars in the Galactic bulge. We find that the stars span the full range of metallicities from [Fe/H] = -0.72 to +0.54, and an average metallicity of ⟨[Fe/H]⟩ = -0.08 ± 0.47, close to the average metallicity based on giant stars in the Bulge. Furthermore, the stars follow well-defined abundance trends, that for [Fe/H] < 0 are very similar to those of the local Galactic thick disc. This suggests that the Bulge and the thick disc have had, at least partially, comparable chemical histories. At sub-solar metallicities we find the Bulge dwarf stars to have consistently old ages, while at super-solar metallicities we find a wide range of ages. Using the new age and abundance results from the microlensed dwarf stars we investigate possible formation scenarios for the Bulge.

Keywords
gravitational lensing: micro - Galaxy: bulge - Galaxy: formation - Galaxy: evolution - Galaxy: disk - stars: abundances

Notes
Based on observations made with the European Southern Observatory telescopes, Program IDs 082.B-0453 and 083.B-0265.
Table 5 is also available in electronic form at the CDS and full Table 4 is only available in electronic form at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/512/A41

Astronomy and Astrophysics
Volume 512, Number of pages A41_1
2010 March

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Instituto de Astrofísica e Ciências do Espaço Universidade do Porto Faculdade de Ciências da Universidade de Lisboa
Fundação para a Ciência e a Tecnologia COMPETE 2020 PORTUGAL 2020 União Europeia