English

Surface effects on the red giant branch

Solar and Stellar Astrophysics 2018-05-16 v1

Abstract

Individual mode frequencies have been detected in thousands of individual solar-like oscillators on the red giant branch (RGB). Fitting stellar models to these mode frequencies, however, is more difficult than in main-sequence stars. This is partly because of the uncertain magnitude of the surface effect: the systematic difference between observed and modelled frequencies caused by poor modelling of the near-surface layers. We aim to study the magnitude of the surface effect in RGB stars. Surface effect corrections used for main-sequence targets are potentially large enough to put the non-radial mixed modes in RGB stars out of order, which is unphysical. Unless this can be circumvented, model-fitting of evolved RGB stars is restricted to the radial modes, which reduces the number of available modes. Here, we present a method to suppress gravity modes (g-modes) in the cores of our stellar models, so that they have only pure pressure modes (p-modes). We show that the method gives unbiased results and apply it to three RGB solar-like oscillators in double-lined eclipsing binaries: KIC 8410637, KIC 9540226 and KIC 5640750. In all three stars, the surface effect decreases the model frequencies consistently by about 0.1--0.3 μ\muHz at the frequency of maximum oscillation power νmax\nu_\mathrm{max}, which agrees with existing predictions from three-dimensional radiation hydrodynamics simulations. Though our method in essence discards information about the stellar cores, it provides a useful step forward in understanding the surface effect in RGB stars.

Keywords

Cite

@article{arxiv.1804.11153,
  title  = {Surface effects on the red giant branch},
  author = {W. H. Ball and N. Themeßl and S. Hekker},
  journal= {arXiv preprint arXiv:1804.11153},
  year   = {2018}
}

Comments

13 pages, 7 figures, accepted in MNRAS

R2 v1 2026-06-23T01:39:56.701Z