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S-process in low-mass extremely metal-poor stars

Published 9 Aug 2013 in astro-ph.SR | (1308.2224v1)

Abstract: Extremely metal-poor low-mass stars experience an ingestion of protons into the helium-rich layer during the core He-flash, resulting in the production of neutrons through the reactions {12}C(p,\gamma){13}N(\beta){13}C(\alpha,n){16}O. This is a potential site for the production of s-process elements in extremely metal-poor stars not occurring in more metal-rich counterparts. Observationally, the signatures of s-process elements in the two most iron deficient stars observed to date, HE1327-2326 & HE0107-5240, still await for an explanation. We investigate the possibility that low-mass EMP stars could be the source of s-process elements observed in extremely iron deficient stars, either as a result of self-enrichment or in a binary scenario as the consequence of a mass transfer episode. We present evolutionary and post-processing s-process calculations of a 1Msun stellar model with metallicities Z=0, 10{-8} and 10{-7}. We assess the sensitivity of nucleosynthesis results to uncertainties in the input physics of the stellar models, particularly regarding the details of convective mixing during the core He-flash. Our models provide the possibility of explaining the C, O, Sr, and Ba abundance for the star HE0107-5240 as the result of mass-transfer from a low-mass EMP star. The drawback of our model is that if mass would be transferred before the primary star enters the AGB phase, nitrogen would be overproduced and the {12}C/{13}C abundance ratio would be underproduced in comparison to the observed values. Our results show that low-mass EMP stars cannot be ruled out as the companion stars that might have polluted HE1327-2326 & HE0107-5240 and produced the observed s-process pattern. However, more detailed studies of the core He-flash and the proton ingestion episode are needed to determine the robustness of our predictions.

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