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Model atmosphere analyses of post-common envelope stars

T. Rushton, Mark; Smalley, Barry; N. Ogley, Richard; H. Wood, Janet; H. Hauschildt, Peter; N. Bleach, James

Authors

Mark T. Rushton

Richard N. Ogley

Janet H. Wood

Peter H. Hauschildt

James N. Bleach



Abstract

Understanding post-common-envelope evolution is important in the studies of close-binary systems. The majority of all interacting binaries with a compact object in their system (e.g. cataclysmic variables, X-ray binaries) are thought to have passed through a common-envelope (CE) phase. Current models of interacting binaries all assume, as a starting point, that there is no significant modification of the secondary star compared with a normal star of similar spectral type. The extent to which the CE significantly alters the composition of the secondary star has yet to be determined.
We are studying the M-type secondary in the pre-CV system EG UMa, in order to determine its atmospheric parameters by comparison with synthetic spectra generated using PHOENIX. Absorption lines due to several elements have been used in investigating the stellar parameters of effective temperature, gravity and over elemental abundance. In addition, we are searching for anomalies due to s-process elements (such as Ba, Sr, Rb, Y), which may have been deposited in the atmosphere during the CE stage, and prove that CE evolution has occurred.
EG UMa displays strong YO absorption bands, which are normally associated with giants and S stars. These bands may have been formed as a result of an Y-abundance enhancement introduced by the CE, which would be consistent with the observed possible Rb and Sr enrichment.

Citation

T. Rushton, M., Smalley, B., N. Ogley, R., H. Wood, J., H. Hauschildt, P., & N. Bleach, J. (2004). Model atmosphere analyses of post-common envelope stars. Proceedings of the International Astronomical Union,

Journal Article Type Article
Publication Date 2004
Deposit Date Jul 7, 2023
Journal International Astronomical Union
Print ISSN 1743-9213
Publisher Cambridge University Press
Peer Reviewed Peer Reviewed
Keywords Astrophysics