Oscillating red giants in eclipsing binary systems: empirical reference value for asteroseismic scaling relation

TL;DR

This study uses Kepler data and binary star analysis to validate and calibrate asteroseismic scaling relations for red giants, providing empirical reference values and confirming their accuracy across different methods.

Contribution

It offers the first detailed mode analysis of red giants in eclipsing binaries and calibrates asteroseismic scaling relations using independent dynamical measurements.

Findings

Agreement between dynamical and asteroseismic parameters when accounting for metallicity and surface effects.

Calibration of the reference frequency for scaling relations to 130.8 μHz.

Validation of scaling relations across three red giant systems.

Abstract

The internal structures and properties of oscillating red-giant stars can be accurately inferred through their global oscillation modes (asteroseismology). Based on 1460 days of Kepler observations we perform a thorough asteroseismic study to probe the stellar parameters and evolutionary stages of three red giants in eclipsing binary systems. We present the first detailed analysis of individual oscillation modes of the red-giant components of KIC 8410637, KIC5640750 and KIC9540226. We obtain estimates of their asteroseismic masses, radii, mean densities and logarithmic surface gravities by using the asteroseismic scaling relations as well as grid-based modelling. As these red giants are in double-lined eclipsing binaries, it is possible to derive their independent dynamical masses and radii from the orbital solution and compare it with the seismically inferred values. For KIC 5640750 we compute the first spectroscopic orbit based on both components of this system. We use high-resolution spectroscopic data and light curves of the three systems to determine up-to-date values of the dynamical stellar parameters. With our comprehensive set of stellar parameters we explore consistencies between binary analysis and asteroseismic methods, and test the reliability of the well-known scaling relations. For the three red giants under study, we find agreement between dynamical and asteroseismic stellar parameters in cases where the asteroseismic methods account for metallicity, temperature and mass dependence as well as surface effects. We are able to attain agreement from the scaling laws in all three systems if we use $\Delta\nu_{\rm ref,emp} = 130.8 \pm 0.9\,\mu$Hz instead of the usual solar reference value.