# The dependence of convective core overshooting on stellar mass: reality   check, and additional evidence

**Authors:** Antonio Claret (1), Guillermo Torres (2) ((1) Inst. de Astrof. de, Andalucia, and Dept. Fisica Teorica y del Cosmos, Univ. de Granada, Spain,, (2) Center for Astrophysics | Harvard & Smithsonian, USA)

arXiv: 1904.02714 · 2019-05-29

## TL;DR

This study confirms that convective core overshooting in stars increases sharply with stellar mass up to about 2 solar masses and then remains constant, using an expanded sample of eclipsing binaries to refine this relationship.

## Contribution

The paper refines the dependence of overshooting parameter on stellar mass by incorporating additional binary systems and addressing previous uncertainties and criticisms.

## Key findings

- Overshooting parameter increases sharply up to 2 M(Sun).
- Overshooting remains constant for stars above 2 M(Sun).
- Expanded sample of 50 binary systems supports the mass dependence.

## Abstract

Overshooting from the convective cores of stars more massive than about 1.2 M(Sun) has a profound impact on their subsequent evolution. And yet, the formulation of the overshooting mechanism in current stellar evolution models has a free parameter (f[ov] in the diffusive approximation) that remains poorly constrained by observations, affecting the determination of astrophysically important quantities such as stellar ages. In an earlier series of papers we assembled a sample of 37 well-measured detached eclipsing binaries to calibrate the dependence of f[ov] on stellar mass, showing that it increases sharply up to a mass of roughly 2 M(Sun), and remains constant thereafter out to at least 4.4 M(Sun). Recent claims have challenged the utility of eclipsing binaries for this purpose, on the basis that the uncertainties in f[ov] from the model fits are typically too large to be useful, casting doubt on a dependence of overshooting on mass. Here we reexamine those claims and show them to be too pessimistic, mainly because they did not account for all available constraints --- both observational and theoretical --- in assessing the true uncertainties. We also take the opportunity to add semi-empirical f[ov] determinations for 13 additional binaries to our previous sample, and to update the values for 9 others. All are consistent with, and strengthen our previous conclusions, supporting a dependence of f[ov] on mass that is now based on estimates for a total of 50 binary systems (100 stars).

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1904.02714/full.md

## References

65 references — full list in the complete paper: https://tomesphere.com/paper/1904.02714/full.md

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Source: https://tomesphere.com/paper/1904.02714