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Fitting formulae for evolution tracks of massive stars under extreme metal-poor environments for population synthesis calculations and star cluster simulations

Ataru Tanikawa, Takashi Yoshida, Tomoya Kinugawa, Koh Takahashi, Hideyuki Umeda

2020Monthly Notices of the Royal Astronomical Society50 citationsDOIOpen Access PDF

Abstract

ABSTRACT We have devised fitting formulae for evolution tracks of massive stars with 8 ≲ M/M⊙ ≲ 160 under extreme metal-poor (EMP) environments for log (Z/Z⊙) = −2, −4, −5, −6, and −8, where M⊙ and Z⊙ are the solar mass and metallicity, respectively. Our fitting formulae are based on reference stellar models which we have newly obtained by simulating the time evolutions of EMP stars. Our fitting formulae take into account stars ending with blue supergiant (BSG) stars, and stars skipping Hertzsprung gap phases and blue loops, which are characteristics of massive EMP stars. In our fitting formulae, stars may remain BSG stars when they finish their core Helium burning phases. Our fitting formulae are in good agreement with our stellar evolution models. We can use these fitting formulae on the sse, bse, nbody4, and nbody6 codes, which are widely used for population synthesis calculations and star cluster simulations. These fitting formulae should be useful to make theoretical templates of binary black holes formed under EMP environments.

Topics & Concepts

PhysicsStarsMetallicityAstrophysicsHertzsprung–Russell diagramSupergiantStellar evolutionStar clusterStar (game theory)PopulationLight curveCluster (spacecraft)Programming languageDemographySociologyComputer scienceStellar, planetary, and galactic studiesGamma-ray bursts and supernovaeAstronomy and Astrophysical Research
Fitting formulae for evolution tracks of massive stars under extreme metal-poor environments for population synthesis calculations and star cluster simulations | Litcius