2020
DOI: 10.1051/0004-6361/202038902
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The impact of stellar rotation on the black hole mass-gap from pair-instability supernovae

Abstract: Models of pair-instability supernovae (PISNe) predict a gap in black hole (BH) masses between ∼45 M⊙ and 120 M⊙, which is referred to as the upper BH mass-gap. With the advent of gravitational-wave astrophysics, it has become possible to test this prediction, and there is an important associated effort to understand which theoretical uncertainties modify the boundaries of this gap. In this work we study the impact of rotation on the hydrodynamics of PISNe, which leave no compact remnant, as well as the evoluti… Show more

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Cited by 93 publications
(74 citation statements)
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“…In particular, the WR star formed when the CH star contracts and spins up at the end of its MS is likely to be critically rotating, and the same process may repeat during core contraction after core helium depletion. The star's angular momentum can be reduced to sub-critical levels with a small amount of mass loss, and therefore does not significantly impact the overall mass budget; however, this does affect the remnant spin Marchant & Moriya (2020).…”
Section: Wind-driven Mass Lossmentioning
confidence: 99%
“…In particular, the WR star formed when the CH star contracts and spins up at the end of its MS is likely to be critically rotating, and the same process may repeat during core contraction after core helium depletion. The star's angular momentum can be reduced to sub-critical levels with a small amount of mass loss, and therefore does not significantly impact the overall mass budget; however, this does affect the remnant spin Marchant & Moriya (2020).…”
Section: Wind-driven Mass Lossmentioning
confidence: 99%
“…If it can produce pre-SN ejecta of ∼0.3 M e due to pulsational pair instability before collapse and generate a ∼10 52 erg explosion with a few solar masses of high-velocity ejecta, it could likely produce an event like SN 2018gep. Recent work (Marchant & Moriya 2020) shows that whether pulsation occurs depends on how fast the star is rotating. Their rigidly rotating models show pulsations, which release less than half of the stellar angular momentum.…”
Section: Asphericity and Jet-like Explosionmentioning
confidence: 99%
“…where: M * is a stellar mass and  q are nuisance parameters such as metallicity, redshift, binarity, or rotation (Farmer et al 2019;Marchant et al 2019;Marchant & Moriya 2020;Woosley & Heger 2021); and ( )…”
Section: Astrophysical Mass Functionmentioning
confidence: 99%