The extreme CNO-enhanced composition of the primitive iron-poor dwarf star J0815+4729

Abstract

We present an analysis of high-resolution Keck/HIRES spectroscopic observations of J0815+4729, an extremely carbon-enhanced, iron-poor dwarf star. These high-quality data allow us to derive a metallicity of [Fe/H]=-5.490.14 from the three strongest Fe1 lines and to measure a high [Ca/Fe]~=0.750.14. The large carbon abundance of A(C)~=7.430.17 (or [C/Fe]~ 4.490.11) places this star in the upper boundary of the low-carbon band in the A(C)-[Fe/H] diagram, suggesting no contamination from a binary AGB companion. We detect the oxygen triplet at 777nm for the first time in an ultra-metal poor star, indicating a large oxygen-to-iron abundance ratio of [O/Fe]~=4.030.12 (A(O)~=7.230.14), significantly higher than the previously most metal-poor dwarf J2209-0028 with an oxygen triplet detection with [O/Fe]~2.2~dex at [Fe/H]~ -3.9. Nitrogen is also dramatically enhanced with (A(N)~=6.750.08) and an abundance ratio [N/Fe]~ 4.410.08. We also detect Ca, Na and Mg, while provide upper limits for eight other elements. The abundance pattern of J0815+4729 resembles that of HE~1327-2326, indicating that both are second-generation stars contaminated by a 21-27~~single, zero-metallicity low-energy supernova with very little mixing and substantial fallback. The absence of lithium implies an upper-limit abundance A(Li)~<1.3~dex, about 0.7~dex below the detected Li abundance in J0023+0307 which has a similar metallicity, exacerbating the cosmological lithium problem.