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Magnetic-buoyancy-induced mixing in AGB stars: a theoretical explanation of the non-universal relation of [Y/Mg] to age

L. Magrini, D. Vescovi, G. Casali, S. Cristallo, C. Viscasillas Vázquez, G. Cescutti, L. Spina, M. Van Der Swaelmen, S. Randich

2021Astronomy and Astrophysics31 citationsDOIOpen Access PDF

Abstract

Context. Abundance ratios involving Y or other slow-neutron capture elements are routinely used to infer stellar ages. Aims. We aim to explain the observed [Y/H] and [Y/Mg] abundance ratios of star clusters located in the inner disc with a new prescription for mixing in asymptotic giant branch (AGB) stars. Methods. In a Galactic chemical evolution model, we adopted a new set of AGB stellar yields in which magnetic mixing was included. We compared the results of the model with a sample of abundances and ages of open clusters located at different Galactocentric distances. Results. The magnetic mixing causes a less efficient production of Y at high metallicity. A non-negligible fraction of stars with super-solar metallicity is produced in the inner disc, and their Y abundances are affected by the reduced yields. The results of the new AGB model qualitatively reproduce the observed trends for both [Y/H] and [Y/Mg] versus age at different Galactocetric distances. Conclusions. Our results confirm from a theoretical point of view that the relation between [Y/Mg] and stellar age cannot be ‘universal’, that is, cannot be the same in every part of the Galaxy. It has a strong dependence on the star formation rate, on the s -process yields, and on their relation with metallicity, and it therefore varies throughout the Galactic disc.

Topics & Concepts

PhysicsAstrophysicsAsymptotic giant branchStarsMixing (physics)Stellar evolutionMetallicityAbundance (ecology)Giant starStar formationAstronomyStar clusterStellar massHorizontal branchAbundance of the chemical elementsChemical evolutionRed-giant branchStellar populationNucleosynthesisStellar, planetary, and galactic studiesAstrophysics and Star Formation StudiesAstronomy and Astrophysical Research
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