Fast rotating massive stars and the origin of the abundance patterns in galactic globular clusters
نویسندگان
چکیده
Aims. We propose the Wind of Fast Rotating Massive Stars scenario to explain the origin of the abundance anomalies observed in globular clusters. Methods. We compute and present models of fast rotating stars with initial masses between 20 and 120 M⊙ for an initial metallicity Z=0.0005 ([Fe/H] ≃ −1.5). We discuss the nucleosynthesis in the H-burning core of these objects and present the chemical composition of their ejecta. We consider the impact of uncertainties in the relevant nuclear reaction rates. Results. Fast rotating stars reach the critical velocity at the beginning of their evolution and remain near the critical limit during the rest of the main sequence and part of the He-burning phase. As a consequence they lose large amounts of material through a mechanical wind which probably leads to the formation of a slow outflowing disk. The material in this slow wind is enriched in H-burning products and presents abundance patterns similar to the chemical anomalies observed in globular cluster stars. In particular, the C, N, O, Na and Li variations are well reproduced by our model. However the rate of the 24Mg(p, γ) has to be increased by a factor 1000 around 50 × 106 K in order to reproduce the whole amplitude of the observed Mg-Al anticorrelation. We discuss how the long-lived low-mass stars currently observed in globular clusters could have formed out of the slow wind material ejected by massive stars.
منابع مشابه
CNO enrichment by rotating AGB stars in globular clusters
Context. AGB stars have long been held responsible for the important star-to-star variations in light elements observed in Galactic globular clusters. Aims. We analyse the main impacts of a first generation of rotating intermediate-mass stars on the chemical properties of secondgeneration globular cluster stars. The rotating models were computed without magnetic fields and without the effects o...
متن کاملOrigin of multiple stellar populations in globular clusters and their helium enrichment
The various scenarios proposed for the origin of the multiple, helium-enriched populations in massive globular clusters are critically compared to the relevant constraining observations. Among accretion of helium-rich material by pre-existing stars, star formation out of ejecta from massive AGB stars or from fast rotating massive stars, and pollution by Population III stars, only the AGB option...
متن کاملGlobular cluster abundances: the imprint of first-generation massive stars
Galactic globular cluster (GC) stars exhibit abundance patterns that are not shared by their field counterparts, namely the well-documented O–Na, C–N and Mg–Al anticorrelations. Recent observations provide compelling evidence that these abundance anomalies were already present in the intracluster gas from which the presently observed stars formed. The current explanation is that the gas was pol...
متن کاملEarly disc accretion as the origin of abundance anomalies in globular clusters
Globular clusters (GCs), once thought to be well approximated as simple stellar populations (i.e. all stars having the same age and chemical abundance), are now known to host a variety of anomalies, such as multiple discrete (or spreads in) populations in colour–magnitude diagrams and abundance variations in light elements (e.g. Na, O, Al). Multiple models have been put forward to explain the o...
متن کاملar X iv : a st ro - p h / 06 06 22 0 v 1 9 Ju n 20 06 Abundance Anomalies in Galactic Globular Clusters - Looking for the Stellar Culprits
Galactic globular cluster stars exhibit abundance patterns which are not shared by their field counterparts. It is clear from recent spectroscopic observations of GC turnoff stars that these abundance anomalies were already present in the gas from which the observed stars formed. This provides undisputed support to the so-called self-enrichment scenario according to which a large fraction of GC...
متن کامل