Low-mass supernovae in the early Galactic halo: source of the double
r/s-process enriched halo stars?
Zijlstra A.A., 2003, MNRAS, (Letters), 348, L23
Abstract
Several stars at the low-metallicity extreme of the Galactic halo
([Fe/H] = -2.5) show strong enhancements of both s-process and
r-process elements. The presence of s-process elements in
main-sequence stars is explained via mass transfer from an AGB
companion star in a binary system. r-Process elements originate in
type-II supernovae and also require mass transfer. It is however
unclear how pollution by both an AGB star and a supernova could have
occured. Here I show that the initial--final-mass relation steepens at
low metallicity, due to low mass-loss efficiency. This may cause the
degenerate cores of low-$Z$, high-mass AGB stars to reach the
Chandresekhar mass, leading to an Iben & Renzini-type-1.5 supernova.
Such supernovae can explain both the enhancement patterns and the
metallicity dependence of the double-enhanced halo stars. Reduced
mass loss efficiency predicts more massive remnants in metal-poor
globular clusters. The evidence for a high M/L population in the
cores of globular clusters is briefly discussed.
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