Stellar Evolution in the Disks of Active Galactic Nuclei Produces Rapidly Rotating Massive Stars

Stellar Evolution in the Disks of Active Galactic Nuclei Produces Rapidly Rotating Massive Stars

Stars can either be formed in or captured by the accretion disks in active galactic nuclei (AGNs). These AGN stars are irradiated and subject to extreme levels of accretion, which can turn even low-mass stars into very massive ones ( M > 100 M ⊙ ) whose evolution may result in the formation of ma...

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Veröffentlicht in:The Astrophysical journal 2021-06, Vol.914 (2), p.105
Hauptverfasser: Jermyn, Adam S., Dittmann, Alexander J., Cantiello, Matteo, Perna, Rosalba
Format: Artikel
Sprache:eng
Schlagworte:
Accretion disks
Active galactic nuclei
Astrophysics
Black holes
Chemical pollution
Galactic evolution
Galactic rotation
Gamma ray bursts
Gamma rays
Low mass stars
Massive stars
Quasars
Stars
Stellar evolution
Stellar evolutionary models
Stellar physics
Stellar rotation
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Zusammenfassung:Stars can either be formed in or captured by the accretion disks in active galactic nuclei (AGNs). These AGN stars are irradiated and subject to extreme levels of accretion, which can turn even low-mass stars into very massive ones ( M > 100 M ⊙ ) whose evolution may result in the formation of massive compact objects ( M > 10 M ⊙ ). Here we explore the spins of these AGN stars and the remnants they leave behind. We find that AGN stars rapidly spin up via accretion, eventually reaching near-critical rotation rates. They further maintain near-critical rotation even as they shed their envelopes, become compact, and undergo late stages of burning. This makes them good candidates to produce high-spin massive black holes, such as the ones seen by LIGO-Virgo in GW 190521g, as well as long gamma-ray bursts and the associated chemical pollution of the AGN disk.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/abfb67