Detailed Iron-Peak Element Abundances in Three Very Metal-Poor Stars

TL;DR

This study provides detailed Fe-group element abundances in three very metal-poor stars using high-resolution ultraviolet and optical spectra, revealing correlations and abundance patterns that challenge existing models of early stellar nucleosynthesis.

Contribution

It offers new detailed abundance measurements for Fe-group elements in extremely metal-poor stars, highlighting correlations and discrepancies that inform models of early star element production.

Findings

Sc, Ti, and V abundances are positively correlated in metal-poor stars.

Cr neutral and ionized abundances are in good agreement, unlike previous studies.

An unexpected overabundance of neutral Co compared to ionized Co was observed.

Abstract

We have obtained new detailed abundances of the Fe-group elements Sc through Zn (Z=21-30) in three very metal-poor ([Fe/H] $\approx -3$) stars: BD 03 740, BD -13 3442 and CD -33 1173. High-resolution ultraviolet HST/STIS spectra in the wavelength range 2300-3050\AA\ were gathered, and complemented by an assortment of optical echelle spectra. The analysis featured recent laboratory atomic data for number of neutral and ionized species for all Fe-group elements except Cu and Zn. A detailed examination of scandium, titanium, and vanadium abundances in large-sample spectroscopic surveys indicates that they are positively correlated in stars with [Fe/H]<-$2. The abundances of these elements in BD 03 740, BD -13 3442 and CD -33 1173 and HD 84937. (studied in a previous paper of this series) are in accord with these trends and lie at the high end of the correlations. Six elements have detectable neutral and ionized features, and generally their abundances are in reasonable agreement. For Cr we find only minimal abundance disagreement between the neutral (mean of [Cri/Fe]=+0.01) and ionized species (mean of [Crii/Fe]=+0.08), unlike most studies in the past. The prominent exception is Co, for which the neutral species indicates a significant overabundance (mean of [Co/H]=-2.53), while no such enhancement is seen for the ionized species (mean of [Coii/H]=-2.93). These new stellar abundances, especially the correlations among Sc, Ti, and V, suggest that models of element production in early high-mass metal-poor stars should be revisited.