期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 526, 期 2, 页码 1799-1808出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stad2876
关键词
stars: evolution; stars: fundamental parameters; stars: interiors; stars: oscillations
The observation of solar-like oscillating subgiant stars by Kepler and TESS missions is crucial for asteroseismic characterization, stellar population studies, and stellar evolution theories. In this study, interior models were constructed to determine the fundamental parameters of four solar-like oscillating subgiant stars, and new asteroseismic methods for determining the age of subgiant stars were developed.
The observation of an unprecedented number of solar-like oscillating subgiant (SG) stars by the Kepler and TESS missions is crucial for the asteroseismic characterization of these stars, stellar population studies, and the study of stellar evolution theories. Owing to these missions, the fundamental parameters of the solar-like oscillating stars are precisely calculated from the evolution codes using the observed oscillation frequencies. Herein, we considered four solar-like oscillating SG stars. We obtained the fundamental parameters of the SG stars by constructing interior models using asteroseismic and non-asteroseismic observed parameters. The interior models of the four SG stars are constructed using the Modules for Experiments in Stellar Astrophysics code to effectively determine the fundamental properties. Using this method, the four solar-like oscillating SG stars are found to have masses and radii within the ranges of 1.16-1.75M(circle dot) and 2.26-3.17R(circle dot), respectively. The estimation accuracy of the typical asteroseismic radius, mass, and age is increased by fitting the observed and model reference frequencies. The typical uncertainties of the mass and radius are 3-4 and 1-2 , respectively. Furthermore, the observed l = 1 frequencies, which showed a mixed mode for the first time, were also fitted to the models. Information regarding the gravity and density of the helium core was obtained by examining the mixed modes. Moreover, new asteroseismic methods for determining the age of SG stars are developed for the first time in this study.
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