Litcius/Paper detail

Star Formation Timescales of the Halo Populations from Asteroseismology and Chemical Abundances*

Tadafumi Matsuno, Wako Aoki, Luca Casagrande, Miho N. Ishigaki, Jianrong Shi, Masao Takata, Maosheng Xiang, David Yong, Haining Li, Takuma Suda, Qianfan Xing, Jingkun Zhao

2021The Astrophysical Journal23 citationsDOIOpen Access PDF

Abstract

Abstract We combine asteroseismology, optical high-resolution spectroscopy, and kinematic analysis for 26 halo red giant branch stars in the Kepler field in the range of −2.5 < [Fe/H] < −0.6. After applying theoretically motivated corrections to the seismic scaling relations, we obtain an average mass of 0.97 ± 0.03 M ⊙ for our sample of halo stars. Although this maps into an age of ∼7 Gyr, significantly younger than independent age estimates of the Milky Way stellar halo, we considered this apparently young age to be due to the overestimation of stellar mass in the scaling relations. There is no significant mass dispersion among lower red giant branch stars (log g > 2), which constrains the relative age dispersion to <18%, corresponding to <2 Gyr. The precise chemical abundances allow us to separate the stars with [Fe/H] > −1.7 into two [Mg/Fe] groups. While the [ α /Fe] and [Eu/Mg] ratios are different between the two subsamples, [ s /Eu], where s stands for Ba, La, Ce, and Nd, does not show a significant difference. These abundance ratios suggest that the chemical evolution of the low-Mg population is contributed by Type Ia supernovae, but not by low- to intermediate-mass asymptotic giant branch stars, providing a constraint on its star formation timescale as 100 Myr < τ < 300 Myr. We also do not detect any significant mass difference between the two [Mg/Fe] groups, thus suggesting that their formation epochs are not separated by more than 1.5 Gyr.

Topics & Concepts

PhysicsAstrophysicsMilky WayHaloStarsStar formationAstronomyRed-giant branchGiant starAsymptotic giant branchStellar evolutionGalactic haloPopulationStellar massRed giantAsteroseismologyStellar populationVelocity dispersionGlobular clusterGalaxy formation and evolutionScalingAbundance (ecology)Star clusterMetallicityRange (aeronautics)Red clumpLarge Magellanic CloudDispersion (optics)Abundance of the chemical elementsStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchAstrophysics and Star Formation Studies