Astronomy and Astrophysics – Astrophysics
Scientific paper
2002-05-23
Astronomy and Astrophysics
Astrophysics
20 pages, 6 figures (2 color figures), AASTex. Submitted to ApJ
Scientific paper
We report on the chemical abundances derived from high-dispersion spectra of 14 red giant stars in the Sagittarius dwarf spheroidal (Sgr dSph) galaxy. The stars span a wide range of metallicities, -1.6 < [Fe/H] < -0.1 dex, and exhibit very unusual abundance variations. For metal-poor stars with [Fe/H] < -1, [alpha/Fe] \approx +0.3 similar to Galactic halo stars, but for more metal-rich stars the relationship of [alpha/Fe] as a function of [Fe/H] is lower than that of the Galactic disk by 0.1 dex. The light elements [Al/Fe] and [Na/Fe] are sub-solar by an even larger amount, 0.4 dex. The pattern of neutron-capture heavy elements, as indicated by [La/Fe] and [La/Eu], shows an increasing s-process component with increasing [Fe/H], up to [La/Fe] \sim +0.7 dex for the most metal-rich Sgr dSph stars. The large [La/Y] ratios show that the s-process enrichments came from the metal-poor population. We can best understand the observed abundances with a model in which the Sgr dSph formed stars over a many Gyr and lost a significant fraction of its gas during its evolution. Low-mass, metal-poor AGB stars polluted the more metal-rich stars with s-process elements, and type Ia SNe from low-mass progenitors enriched the ISM with iron-peak metals. The type II/type Ia SNe ratio was smaller than in the Galactic disk, presumably due to a slower star formation rate; this resulted in the observed low [alpha/Fe], [Al/Fe] and [Na/Fe] ratios. The fact that Sgr stars span such a wide range in metallicity leads us to conclude that their age spread is even larger than previously inferred. We derive ages using the Padova models (Girardi et al. 2000) that span \sim 0.5 to 13 Gyr, implying a very long duration of star formation in the central regions of the Sgr dSph.
McWilliam Andrew
Smecker-Hane Tammy Ann
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