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Apsidal motion in NGC 6231: Sounding the internal structure of massive stars

Published online by Cambridge University Press:  29 August 2024

S. Rosu Open the ORCID record for S. Rosu [Opens in a new window] ,
G. Rauw ,
M.-A. Dupret ,
A. Noels  and
M. Farnir
S. Rosu*
Affiliation:
STAR Institute, Université de Liège, Allée du 6 août 19c, Bât B5c, 4000 Liège, Belgium
G. Rauw
Affiliation:
STAR Institute, Université de Liège, Allée du 6 août 19c, Bât B5c, 4000 Liège, Belgium
M.-A. Dupret
Affiliation:
STAR Institute, Université de Liège, Allée du 6 août 19c, Bât B5c, 4000 Liège, Belgium
A. Noels
Affiliation:
STAR Institute, Université de Liège, Allée du 6 août 19c, Bât B5c, 4000 Liège, Belgium
M. Farnir
Affiliation:
University of Warwick, Coventry CV4 7AL, UK
*
email: sophie.rosu@uliege.be
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Abstract

The young open cluster NGC 6231 hosts a rich population of O-type binary stars. We study several of these eccentric short-period massive eclipsing binaries and assess their fundamental parameters. The properties of these systems make them interesting targets to study tidally induced apsidal motion. The analysis of apsidal motion offers a powerful means to obtain information about the internal structure of the stars. Indeed, since the rate of apsidal motion in a binary system is proportional to the internal structure constants of the stars composing it, its value gives direct insight into the internal structure and evolutionary state of these stars. Stellar evolution models are constructed based on the observationally-determined fundamental parameters and a theoretical rate of apsidal motion is inferred. The results are striking: Adopting standard stellar evolution models yields a theoretical rate of apsidal motion much larger than the observational value. This discrepancy results from the standard models predicting too low an efficiency of internal mixing and thus too homogenous stars in terms of density. By enforcing the theoretical rates of apsidal motion to match the observational values, enhanced mixing is required, through a large overshooting parameter and/or additional turbulent/rotational mixing. Our analysis leads to the conclusion that the chemically mixed cores in those massive stars must be more extended than anticipated from standard models.

Keywords

Stars: early-typeevolutionmassiveBinaries: spectroscopiceclipsing
Type
Contributed Paper
Information
Proceedings of the International Astronomical Union , Volume 18 , Symposium S361: Massive Stars Near and Far , May 2022 , pp. 241 - 247
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Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of International Astronomical Union

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