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The s-Process in the Yellow Symbiotic AG Draconis

Published online by Cambridge University Press:  25 May 2016

Katia Cunha
Affiliation:
Observatório Nacional, Rio de Janeiro, Brazil
Verne V. Smith
Affiliation:
University of Texas at El Paso, TX 79968, U.S.A. McDonald Observatory, University of Texas at Austin, TX 78712, U.S.A.
Alain Jorissen
Affiliation:
Institut d'Astronomie, Université Libre de Bruxelles, Belgium

Abstract

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An abundance analysis of the yellow symbiotic system AG Draconis reveals it to be a metal-poor K giant ([Fe/H] = −1.3) which is enriched in the heavy s-process elements. This star thus provides a link between the symbiotic stars and the binary barium and CH stars which are also s-process enriched. These binary systems, which exhibit overabundances of the heavy elements, owe their abundance peculiarities to mass transfer from thermally-pulsing asymptotic giant branch stars, which have since evolved to become white-dwarf companions of the cool stars we now view as the chemically peculiar primaries. A comparison of the heavy-element abundance distribution in AG Dra with theoretical nucleosynthesis calculations shows that the s-process is defined by a relatively large neutron exposure (τ = 1.3 mb−1), while an analysis of the rubidium abundance suggests that the s-process occurred at a neutron density of about 2 × 108 cm−3. The derived spectroscopic orbit of AG Dra is similar to the orbits of barium and CH stars. Because the luminosity function of low-metallicity K giants is skewed towards higher luminosities by about 2 magnitudes relative to solar-metallicity giants, it is argued that the lower metallicity K giants have larger mass-loss rates. It is this larger mass-loss rate that drives the symbiotic phenomena in AG Dra and we suggest that the other yellow symbiotic stars are probably low-metallicity objects as well.

Type
Session II — Models and Abundance Determinations
Copyright
Copyright © Kluwer 2000