SIMBAD references

2000AJ....120.1056K - Astron. J., 120, 1056-1071 (2000/August-0)

Galactic [O/Fe] and [C/Fe] ratios: the influence of new stellar parameters.

KING J.R.

Abstract (from CDS):

We consider the effects of recent NLTE gravities and Fe abundances on stellar [O/Fe] and [C/Fe] ratios. The NLTE parameters greatly reduce or eliminate the well-known discrepancy between CH- and C I-based C abundances in metal-poor stars and previously seen trends of atomic-based [C/Fe] and [O/Fe] with Teff. With the NLTE parameters, the metal-poor molecular-based [C/Fe] ratio maintains its increase with declining [Fe/H]; this may also be demonstrated by the revised atomic-based ratios. [O/Fe] values derived from OH and O I features are considerably reduced and typically show improved agreement but are 0.1-0.2 dex larger than those exhibited by the Lick-Texas syndicate's recent [O I]-based giant determinations. The revised [O/Fe] ratios still show an increase down to at least [Fe/H]~-2; we suggest that recent field giant data show an increase with similar slope. Even adopting uniform NLTE parameters, study-to-study abundance differences can be significant; moreover, different NLTE studies yield differing gravities and Fe abundances even after taking Teff differences into account. Comparison of metal-poor giant gravities and cluster abundances with isochrones, trigonometric gravities, and near-turnoff cluster abundances yields conflicting indications about whether the evolved gravities might be underestimated as suggested for metal-poor dwarfs. Regardless, we argue that even extreme gravity revisions do not affect the [O/Fe]-[Fe/H] relation derived from the extant results. Combining what we believe the most reliable giant and dwarf data considered here, we find [O/Fe]=-0.184(±0.022)x[Fe/H]+0.019 with an rms scatter of only 0.13 dex; there is no indication of a break or slope change at intermediate [Fe/H]. The gentle slope is in very reasonable agreement with some chemical evolution models employing yields with small mass and metallicity dependences. Finally, two notes are made concerning Na abundance-spatial position and element-to-element correlations in M13 giants.

Abstract Copyright:

Journal keyword(s): Galaxy: Abundances - Galaxy: Halo - Stars: Abundances - Stars: Atmospheres - Stars: Distances - Stars: Fundamental Parameters - Stars: Late-Type - Stars: Population II

Simbad objects: 41

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