Bibcode
Nissen, P. E.; Akerman, C.; Asplund, M.; Fabbian, D.; Kerber, F.; Kaufl, H. U.; Pettini, M.
Bibliographical reference
Astronomy and Astrophysics, Volume 469, Issue 1, July I 2007, pp.319-330
Advertised on:
7
2007
Journal
Citations
141
Refereed citations
129
Description
Aims:Based on a new set of sulphur abundances in very metal-poor stars
and an improved analysis of previous data, we aim at resolving current
discrepancies on the trend of S/Fe vs. Fe/H and thereby gain better
insight into the nucleosynthesis of sulphur. The trends of Zn/Fe and
S/Zn will also be studied. Methods: High resolution VLT/UVES
spectra of 40 main-sequence stars with -3.3 < [Fe/H] < -1.0 are
used to derive S abundances from the weak λ 8694.6 S I line and
the stronger λ λ 9212.9,9237.5 pair of S I lines. For one
star, the S abundance is also derived from the S I triplet at 1.046
μm recently observed with the VLT infrared echelle spectrograph
CRIRES. Fe and Zn abundances are derived from lines in the blue part of
the UVES spectra, and effective temperatures are obtained from the
profile of the Hβ line. Results: Comparison of sulphur
abundances from the weak and strong S I lines provides important
constraints on non-LTE effects. The high sulphur abundances reported by
others for some metal-poor stars are not confirmed; instead, when taking
non-LTE corrections into account, the Galactic halo stars distribute
around a plateau at [S/Fe] ~ +0.2 dex with a scatter of 0.07 dex only.
[Zn/Fe] is close to zero for metallicities in the range -2.0 < [Fe/H]
< -1.0 but increases to a level of [Zn/Fe] ~ +0.1 to +0.2 dex in the
range -2.7 < [Fe/H] < -2.0. At still lower metallicities [Zn/Fe]
rises steeply to a value of [Zn/Fe] ~ +0.5 dex at [Fe/H] = -3.2. Conclusions: The trend of S/Fe vs. Fe/H corresponds to the trends of
Mg/Fe, Si/Fe, and Ca/Fe and indicates that sulphur in Galactic halo
stars has been made by α-capture processes in massive SNe. The
observed scatter in S/Fe is much smaller than predicted from current
stochastic models of the chemical evolution of the early Galaxy,
suggesting that either the models or the calculated yields of massive
SNe should be revised. We also examine the behaviour of S/Zn and find
that departures from the solar ratio are significantly reduced at all
metallicities if non-LTE corrections to the abundances of these two
elements are adopted. This effect, if confirmed, would reduce the
usefulness of the S/Zn ratio as a diagnostic of past star-formation
activity, but would bring closer together the values measured in damped
Lyman-alpha systems and in Galactic stars.
Based on observations collected at the European Southern Observatory at
Paranal, Chile (programmes No. 67.D-0106, 73.D-0024 and CRIRES science
verification program 60.A-9072). Table 1 and Appendices are only
available in electronic form at http://www.aanda.org