Deep SDSS Optical Spectroscopy of Distant Halo Stars. III. Chemical analysis of extremely metal-poor stars

TL;DR

This study analyzes 107 extremely metal-poor stars from SDSS spectra, measuring elemental abundances, identifying carbon-enhanced stars, and providing insights into their chemical compositions and frequency at low metallicities.

Contribution

It introduces a methodology for chemical analysis of EMP stars using medium-resolution spectra and compares results with existing pipelines, highlighting the prevalence of CEMP stars.

Findings

Most EMP stars show typical alpha-element enhancement (~+0.4).

26% of stars are carbon-enhanced (CEMP), increasing at lower metallicities.

Identified a rare bright EMP star with unique abundance pattern.

Abstract

We present the results of an analysis for 107 extremely metal-poor (EMP) stars with metallicities less than [Fe/H] = -3.0, identified from medium-resolution spectra in SDSS. We follow a methodology based on comparisons of the observed spectra with synthetic spectra. The abundances of Fe, Ca, and Mg are determined by fitting spectral regions dominated by lines of each element. In addition, we present a technique to determine upper limits for elements whose features are not detected in a given spectrum. We also analyse our sample with the SEGUE Stellar Parameter Pipeline, in order to obtain additional determinations of the atmospheric parameters, iron and alpha-element abundances, to compare with ours, and to infer [C/Fe] ratios. We find that, in these moderate to low signal-to-noise and medium-resolution spectra in this metallicity regime, Ca is usually the only element that exhibits lines that are sufficiently strong to reliably measure its abundance. Fe and Mg exhibit weaker features that, in most cases, only provide upper limits. We measure [Ca/Fe] and [Mg/Fe] for EMP stars in the SDSS spectra, and conclude that most of the stars exhibit the usual level of enhancement for {\alpha}-elements, ~ +0.4, although a number of stars for which only [Fe/H] upper limits could be estimated point to higher [{\alpha}/Fe] ratios. We also find that 26 % of the stars in our sample can be classified as carbon-enhanced metal-poor (CEMP) stars, and that the frequency of CEMP stars also increases with decreasing metallicity, as has been reported for previous samples. We identity a rare, bright (g = 11.90) EMP star, SDSS J134144.61+474128.6, with [Fe/H] = -3.27, [C/Fe] = +0.95, and elevated magnesium ([Mg/Fe] = +0.62), an abundance pattern typical of CEMP-no stars.