Nucleosynthetic signatures of the first stars

Anna Frebel*, Wako Aoki, Norbert Christlieh, Hiroyasu Ando, Martin Asplund, Paul S. Barklem, Timothy C. Beers, Kjell Eriksson, Cora Fechner, Masayuki Y. Fujimoto, Satoshi Honda, Toshitaka Kajino, Takeo Minezaki, Ken'ichi Homoto, John E. Horris, Sean G. Ryan, Masahide Takada-Hidal, Steilos Tsangarides, Yuzuru Yoshii

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    520 Citations (Scopus)

    Abstract

    The chemically most primitive stars provide constraints on the nature of the first stellar objects that formed in the Universe; elements other than hydrogen, helium and traces of lithium present within these objects were generated by nucleosynthesis in the very first stars. The relative abundances of elements in the surviving primitive stars reflect the masses of the first stars, because the pathways of nucleosynthesis are quite sensitive to stellar masses. Several models have been suggested to explain the origin of the abundance pattern of the giant star HE0107-5240, which hitherto exhibited the highest deficiency of heavy elements known. Here we report the discovery of HE1327-2326, a subgiant or main-sequence star with an iron abundance about a factor of two lower than that of HE0107-5240. Both stars show extreme overabundances of carbon and nitrogen with respect to iron, suggesting a similar origin of the abundance patterns. The unexpectedly low Li and high Sr abundances of HE1327-2326, however, challenge existing theoretical understanding: no model predicts the high Sr abundance or provides a Li depletion mechanism consistent with data available for the most metal-poor stars.

    Original languageEnglish
    Pages (from-to)871-873
    Number of pages3
    JournalNature
    Volume434
    Issue number7035
    DOIs
    Publication statusPublished - 14 Apr 2005

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