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- Formation Scenarios of Ba Stars: New Evidence from the Masses of the Companion AGBs
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Formation Scenarios of Ba Stars: New Evidence from the Masses of the Companion AGBs
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The abundances of the slow neutron-capture (s-) process elements observed in barium stars can be explained by considering mass transfer in a binary system from an asymptotic giant branch (AGB) star onto a smaller mass and less evolved binary companion star. Based on the abundances of neutron-capture elements, the barium stars are broadly divided into two categories: “strong” and “mild” barium stars. However, an understanding of the role of the characteristic properties of the companion AGBs on the formation of the different types of barium stars is still lacking. This work focuses on investigating the role of the masses of the companion AGB stars in this context. In a recent high-resolution spectroscopic study, we studied in detail the chemical composition of a few barium stars that we have identified. In order to understand the nature and the mass of the companion stars, we first estimated the masses of these objects and then used a parametric model-based analysis to derive the masses of the primary companion stars. The calculation is extended to 205 barium stars taken from literature. An analysis of the mass distribution revealed that both the strong and the mild barium stars occupy the same range of masses. However, their companion AGB stars’ mass distributions peak at two different values of 2.5M⊙ and 3.7M⊙, for the strong and the mild barium stars, respectively. This provides clear evidence that the formation of mild and strong Ba stars is greatly influenced by the initial masses of the companion AGB stars. However, the possible impact of other factors, such as orbital period and metallicity, on the formation scenarios of barium stars remains to be seen.