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Precise masses and ages of ~1 million RGB and RC stars observed by LAMOST

Chun Wang, Yang Huang, Yutao Zhou, Huawei Zhang

2023Astronomy and Astrophysics15 citationsDOIOpen Access PDF

Abstract

We construct a catalogue of stellar masses and ages for 696 680 red giant branch (RGB) stars, 180 436 primary red clump (RC) stars, and 120 907 secondary RC stars selected from the LAMOSTDR8. The RGBs, primary RCs, and secondary RCs are identified with the large frequency spacing (∆ ν ) and period spacing (∆ P ) estimated from the LAMOST spectra with spectral signal-to-noise ratios (S/Ns) > 10 using a neural network method supervised with seismologic information from LAMOST- Kepler sample stars. The purity and completeness of both RGB and RC samples are better than 95% and 90%, respectively. The mass and age of RGBs and RCs are determined again with the neural network method by taking the LAMOST- Kepler giant stars as the training set. The typical uncertainties on stellar mass and age are 10% and 30%, respectively, for the RGB stellar sample. For RCs, the typical uncertainties on stellar mass and age are 9% and 24%, respectively. The RGB and RC stellar samples cover a large volume of the Milky Way (5 < R < 20 kpc and |Z| < 5 kpc), which are valuable data sets for various Galactic studies.

Topics & Concepts

LAMOSTPhysicsAstrophysicsStarsRGB color modelMilky WayRed-giant branchAstronomySkyMetallicityArtificial intelligenceComputer scienceStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchAstrophysics and Star Formation Studies
Precise masses and ages of ~1 million RGB and RC stars observed by LAMOST | Litcius