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The impact of a top-heavy IMF on the formation and evolution of dark star clusters.

Authors :
Shirazi, Ali Rostami
Haghi, Hosein
Zonoozi, Akram Hasani
Farhani Asl, Ahmad
Kroupa, Pavel
Source :
Monthly Notices of the Royal Astronomical Society. 7/15/2024, Vol. 531 Issue 4, p4166-4180. 15p.
Publication Year :
2024

Abstract

The Spitzer instability leads to the formation of a black hole subsystem (BHSub) at the centre of a star cluster providing energy to luminous stars (LSs) and increasing their rate of evaporation. When the self-depletion time of the BHSub exceeds the evaporation time of the LSs, a dark star cluster (DSC) will appear. Using the nbody7 code, we performed a comprehensive set of direct N -body simulations over a wide range of initial conditions to study the pure effect of the top-heaviness of the initial mass function (IMF) on the formation of the DSC phase. In the Galactic tidal field, top-heavy IMFs lead to the fast evaporation of LSs and the formation of DSCs. Therefore, DSCs can be present even in the outer region of the Milky Way (MW). To successfully transition to the DSC phase, the MW Globular Clusters (GCs) must possess an initial black hole (BH) mass fraction of |$\widetilde {\mathit {M}}_\mathrm{BH}(0)\gt 0.05$|⁠. For star clusters with |$\widetilde {\mathit {M}}_\mathrm{BH}(0)\gt 0.08$|⁠ , the DSC phase will be created for any given initial density of the cluster and Galactocentric distance. The duration of the cluster's lifetime spent in the DSC phase shows a negative (positive) correlation with the initial density, and Galactocentric distance of the star cluster if |$\widetilde {\mathit {M}}_\mathrm{BH}(0)\le 0.12$| (⁠|$\widetilde {\mathit {M}}_\mathrm{BH}(0)\ge 0.15$|⁠). Considering the canonical IMF, it is unlikely for any MW GCs to enter the DSC phase. We discuss the BH retention fraction in view of the observed properties of the GCs of the MW. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00358711
Volume :
531
Issue :
4
Database :
Academic Search Index
Journal :
Monthly Notices of the Royal Astronomical Society
Publication Type :
Academic Journal
Accession number :
178299788
Full Text :
https://doi.org/10.1093/mnras/stae936