The Dynamic Atmospheres of Carbon Rich Giants: Constraining Models Via Interferometry
Abstract
Dynamic models for the atmospheres of C-rich Asymptotic Giant Branch stars are quite advanced and have been overall successful in reproducing spectroscopic and photometric observations. Interferometry provides independent information and is thus an important technique to study the atmospheric stratification and to further constrain the dynamic models. We observed a sample of six C-rich AGBs with the mid infrared interferometer VLTI/MIDI. These observations, combined with photometric and spectroscopic data from the literature, are compared with synthetic observables derived from dynamic model atmospheres (DMA, Eriksson et al. 2014). The SEDs can be reasonably well modelled and the interferometry supports the extended and multi-component structure of the atmospheres, but some differences remain. We discuss the possible reasons for these differences and we compare the stellar parameters derived from this comparison with stellar evolution models. Finally, we point out the high potential of MATISSE, the second generation VLTI instrument allowing interferometric imaging in the L, M, and N bands, for further progress in this field.
- Publication:
-
19th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun (CS19)
- Pub Date:
- July 2016
- DOI:
- 10.5281/zenodo.59012
- Bibcode:
- 2016csss.confE.111R
- Keywords:
-
- interferometry;
- AGB stars;
- stellar atmospheres;
- high-angular resolution;
- dust;
- Zenodo community cs19