HE 1327-2326, an unevolved star with [Fe/H]<-5.0. II. New 3D-1D corrected abundances from a VLT/UVES spectrum

TL;DR

This study provides new 3D-1D corrected abundance measurements for the most iron-poor star HE 1327-2326, enhancing the understanding of early stellar nucleosynthesis and the chemical yields of first-generation supernovae.

Contribution

It introduces a novel technique for applying 3D-1D corrections to molecular lines, improving abundance accuracy and observationally testing models of primordial supernova yields.

Findings

Improved fit to NH band with 3D-1D corrections.

First detection of weak Ni lines in this star.

Li remains undetected with a very low upper limit.

Abstract

We present a new abundance analysis of HE 1327-2326, the currently most iron-poor star, based on observational data obtained with VLT/UVES. We correct the 1D LTE abundances for 3D effects to provide an abundance pattern that supersedes previous works, and should be used to observationally test current models of the chemical yields of the first-generation SNe. Apart from confirming the 1D LTE abundances found in previous studies before accounting for 3D effects, we make use of a novel technique to apply the 3D-1D corrections for CNO which are a function of excitation potential and line strength for the molecular lines that comprise the observable CH, NH, and OH features. We find that the fit to the NH band at 3360 A is greatly improved due to the application of the 3D-1D corrections. This may indicate that 3D effects are actually observable in this star. We also report the first detection of several weak Ni lines. The cosmologically important element Li is still not detected; the new Li upper limit is extremely low, A(Li)<0.62, and in stark contrast with results not only from WMAP but also from other metal-poor stars. We also discuss how the new corrected abundance pattern of HE 1327-2326 is being reproduced by individual and integrated yields of SNe.