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Asteroseismology of 36<i>Kepler</i>subgiants – II. Determining ages from detailed modelling

Tanda Li, T. R. Bedding, J. Christensen‐Dalsgaard, Dennis Stello, Yaguang Li, Matthew A Keen

2020Monthly Notices of the Royal Astronomical Society44 citationsDOIOpen Access PDF

Abstract

ABSTRACT Detailed modelling of stellar oscillations is able to give precise estimates for stellar ages, but the inferred results typically depend on the adopted model parameters used for the age inference. High-quality asteroseismic data with precise measurements of mixed modes are available for 36 Kepler subgiants. To obtain a handle on the robustness of the ages for these stars, we first study the dependencies of seismic ages on three model input parameters. We find that inferred ages do not change systematically with the helium fraction (Y) or the mixing-length parameter (αMLT) but depend strongly on the metallicity ([M/H]) of the model. The results indicate that age estimates of subgiants have less model dependence and hence are more reliable than those of main-sequence stars or red giants. We then model individual oscillation frequencies of the same 36 Kepler subgiants, using observed metallicities, and obtain their ages with an average precision of ${\sim}15{{\ \rm per\ cent}}$. The comparison with previous age estimates with different stellar codes or input physics shows good agreement (mostly within 2σ). We hence suggest that seismology-determined ages of subgiants are not greatly model dependent.

Topics & Concepts

AsteroseismologyPhysicsKeplerAstrophysicsStarsMetallicityGlobular clusterGiant starStellar evolutionAstronomyStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchAstronomical Observations and Instrumentation
Asteroseismology of 36<i>Kepler</i>subgiants – II. Determining ages from detailed modelling | Litcius