Litcius/Paper detail

Impact of the Rotation and Compactness of Progenitors on the Mass of Black Holes

Michela Mapelli, Mario Spera, Enrico Montanari, Marco Limongi, Alessandro Chieffi, Nicola Giacobbo, Alessandro Bressan, Yann Bouffanais

2020The Astrophysical Journal140 citationsDOIOpen Access PDF

Abstract

Abstract We investigate the impact of stellar rotation on the formation of black holes (BHs) by means of our population synthesis code sevn . Rotation affects the mass function of BHs in several ways. In massive metal-poor stars, fast rotation reduces the minimum zero-age main sequence (ZAMS) mass for a star to undergo pair instability and pulsational pair instability. Moreover, stellar winds are enhanced by rotation, peeling off the entire hydrogen envelope. As a consequence of these two effects, the maximum BH mass we expect from the collapse of a rotating metal-poor star is only ∼45 M ⊙ , while the maximum mass of a BH born from a nonrotating star is ∼60 M ⊙ . Furthermore, stellar rotation reduces the minimum ZAMS mass for a star to collapse into a BH from ∼18–25 M ⊙ to ∼13–18 M ⊙ . Finally, we have investigated the impact of different core-collapse supernova (CCSN) prescriptions on our results. While the threshold value of compactness for direct collapse and the fallback efficiency strongly affect the minimum ZAMS mass for a star to collapse into a BH, the fraction of the hydrogen envelope that can be accreted onto the final BH is the most important ingredient in determining the maximum BH mass. Our results confirm that the interplay between stellar rotation, CCSNe and pair instability plays a major role in shaping the BH mass spectrum.

Topics & Concepts

PhysicsAstrophysicsSupernovaStellar rotationInstabilityRotation (mathematics)Stellar massStar (game theory)Stellar evolutionStarsStar formationBlack hole (networking)Stellar mass lossInitial mass functionPopulationHertzsprung–Russell diagramLow MassCompact starProtostarAstronomyMain sequenceStellar populationEnvelope (radar)Compact spaceMinimum massInstability stripRotation periodMass fractionStellar structureSolar massPair-instability supernovaPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsAstronomy and Astrophysical Research