How Black Holes Shape Globular Clusters: Modeling NGC 3201

How Black Holes Shape Globular Clusters: Modeling NGC 3201

Numerical simulations have shown that black holes (BHs) can strongly influence the evolution and present-day observational properties of globular clusters (GCs). Using a Monte Carlo code, we construct GC models that match the Milky Way cluster NGC 3201, the first cluster in which a stellar-mass BH w...

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Veröffentlicht in:Astrophysical journal. Letters 2018-03, Vol.855 (2), p.L15
Hauptverfasser: Kremer, Kyle, Ye, Claire S., Chatterjee, Sourav, Rodriguez, Carl L., Rasio, Frederic A.
Format: Artikel
Sprache:eng
Schlagworte:
Binary stars
Black holes
Computer simulation
Globular clusters
globular clusters: general
globular clusters: individual (NGC 3201)
Mathematical models
methods: numerical
Milky Way
Numerical simulations
Radial velocity
stars: black holes
stars: kinematics and dynamics
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Beschreibung
Zusammenfassung:Numerical simulations have shown that black holes (BHs) can strongly influence the evolution and present-day observational properties of globular clusters (GCs). Using a Monte Carlo code, we construct GC models that match the Milky Way cluster NGC 3201, the first cluster in which a stellar-mass BH was identified through radial velocity measurements. We predict that NGC 3201 contains 200 stellar-mass BHs. Furthermore, we explore the dynamical formation of main-sequence-BH binaries and demonstrate that systems similar to the observed BH binary in NGC 3201 are produced naturally. Additionally, our models predict the existence of bright blue straggler-BH binaries that are unique to core-collapsed clusters, which otherwise retain few BHs.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/aab26c