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Evolution and mass-loss of AGB stars in the magellanic clouds

J. Blommaert 1, N. Trams 1, M. Groenewegen 2, J. van Loon 3, R. Waters 3, M.R. Cioni 4, H. Habing 4, C. Loup 5, & A.A. Zijlstra 6

1 ISO Data Centre, VILSPA, Madrid, Spain

2 Max-Planck-Institut für Astrophysik, Garching, Germany

3 Astronomisch Instituut, Univ. of Amsterdam, The Netherlands

4 Sterrewacht Leiden, The Netherlands

5 CNRS, Institut d'Astrophysique Paris, France

6 UMIST, Manchester, United Kingdom




We used ISOCAM and ISOPHT to observe the spectral energy distribution (SED) between 3.6 and 60 microns of Asymptotic Giant Branch stars in the MCs detected by IRAS. PHT-S and CAM-CVF spectra are made which enable us to establish the carbon- or oxygen-rich nature of the stars. The 9.7 micron silicate feature gives a measure of the optical depth of the dust shell. Ground-based near-infrared data has been obtained for the full sample.

At the tip of the AGB, just before becoming Planetary Nebulae and ultimately White Dwarfs, the stars become highly variable with large amplitude variations. These conditions lead to a high mass loss (up to $\rm 10^{-4} M_{\odot} yr^{-1}$) which will dominate the further evolution of the star. The circumstellar shell created obscures the star and shifts its SED to the infrared. We are analysing the SEDs using a radiative transfer model which provides accurate determinations of the luminosities and mass loss rates of the objects. This sample allows a careful study of the final stages of the evolution of low- to intermediate mass stars, not hampered by uncertainties in the distances. The effect of the high mass loss rates on the evolution is studied.

Combining the data on the SMC, LMC and existing data on the Galaxy will answer the open question of the metallicity dependence of mass loss in late-type stars. This in turn is important in the ejection of matter by AGB stars to the interstellar medium over the age of the Galaxy.

The results so far confirm the AGB nature of the selected IRAS sources and show that the sample consists of Carbon- and oxygen-rich stars with luminosities ranging from 5000 Lsun up to the AGB-limit of  55,000 Lsun and mass loss rates between $\rm 10^{-8}$ and $\rm 10^{-5} M_{\odot} yr^{-1}$. The position of the stars in the Period-Luminosity diagram (important in the understanding of the evolution) will be shown. Some peculiar cases like IRAS04496-6958, a carbon star with silicate dust (the first one detected in the LMC) will be presented.

next up previous contents index
Next: Gas-phase CO around O-rich Up: Poster session D Stars Previous: On the distances and
"The Universe as seen by ISO", 20 - 23 October 1998, Paris: Abstract Book