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Black Hole Formation Accompanied by the Supernova Explosion of a 40 M ⊙ Progenitor Star
by
Wang, Tianshu
, Vartanyan, David
, Burrows, Adam
in
Asymmetry
/ Baryons
/ Black holes
/ Explosions
/ Metallicity
/ Neutrinos
/ Neutron stars
/ Neutrons
/ Star formation
/ Supernova
2023
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Black Hole Formation Accompanied by the Supernova Explosion of a 40 M ⊙ Progenitor Star
by
Wang, Tianshu
, Vartanyan, David
, Burrows, Adam
in
Asymmetry
/ Baryons
/ Black holes
/ Explosions
/ Metallicity
/ Neutrinos
/ Neutron stars
/ Neutrons
/ Star formation
/ Supernova
2023
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Black Hole Formation Accompanied by the Supernova Explosion of a 40 M ⊙ Progenitor Star
Journal Article
Black Hole Formation Accompanied by the Supernova Explosion of a 40 M ⊙ Progenitor Star
2023
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Overview
We have simulated the collapse and evolution of the core of a solar-metallicity 40 M ⊙ star and find that it explodes vigorously by the neutrino mechanism, despite its very high “compactness.” Within ∼1.5 s of explosion, a black hole forms. The explosion is very asymmetrical and has a total explosion energy of ∼1.6 × 1051 erg. At black hole formation, its baryon mass is ∼2.434 M ⊙ and gravitational mass is 2.286 M ⊙. Seven seconds after black hole formation, an additional ∼0.2 M ⊙ is accreted, leaving a black hole baryon mass of ∼2.63 M ⊙. A disk forms around the proto−neutron star, from which a pair of neutrino-driven jets emanates. These jets accelerate some of the matter up to speeds of ∼45,000 km s−1 and contain matter with entropies of ∼50. The large spatial asymmetry in the explosion results in a residual black hole recoil speed of ∼1000 km s−1. This novel black hole formation channel now joins the other black hole formation channel between ∼12 and ∼15 M ⊙ discovered previously and implies that the black hole/neutron star birth ratio for solar-metallicity stars could be ∼20%. However, one channel leaves black holes in perhaps the ∼5–15 M ⊙ range with low kick speeds, while the other leaves black holes in perhaps the ∼2.5–3.0 M ⊙ mass range with high kick speeds. However, even ∼8.8 s after core bounce the newly formed black hole is still accreting at a rate of ∼2 × 10−2 M ⊙ s−1, and whether the black hole eventually achieves a significantly larger mass over time is yet to be determined.
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