Studying how nuclear star clusters (NSCs) form and how they are related to the growth of the central massive black holes (MBHs) and their host galaxies is fundamental for our understanding of the evolution of galaxies and the processes that have shaped their central structures. We present the results of a semi-analytical galaxy formation model that follows the evolution of dark matter halos along merger trees, as well as that of the baryonic components. This model allows us to study the evolution of NSCs in a cosmological context, by taking into account the growth of NSCs due to both dynamical-friction-driven migration of stellar clusters and star formation triggered by infalling gas, while also accounting for dynamical heating from (binary) MBHs. We find that in situ star formation contributes a significant fraction (up to similar to 80%) of the total mass of NSCs in our model. Both NSC growth through in situ star formation and that. through star cluster migration are found to generate NSC-host galaxy scaling correlations that are shallower than the same correlations for MBHs. We explore the role of galaxy mergers on the evolution of NSCs. and show that observational data on NSC-host galaxy scaling relations provide evidence of partial erosion of NSCs by MBH binaries in luminous galaxies. We show that this observational feature is reproduced by our models, and we make predictions about the NSC and MBH occupation fraction in galaxies. We conclude by discussing several implications for theories of NSC formation.

The coevolution of nuclear star clusters, massive black holes, and their host galaxies / Antonini, F; Barausse, E; Silk, J. - In: THE ASTROPHYSICAL JOURNAL. - ISSN 0004-637X. - 812:1(2015), pp. 1-24. [10.1088/0004-637X/812/1/72]

The coevolution of nuclear star clusters, massive black holes, and their host galaxies

Barausse E;
2015

Abstract

Studying how nuclear star clusters (NSCs) form and how they are related to the growth of the central massive black holes (MBHs) and their host galaxies is fundamental for our understanding of the evolution of galaxies and the processes that have shaped their central structures. We present the results of a semi-analytical galaxy formation model that follows the evolution of dark matter halos along merger trees, as well as that of the baryonic components. This model allows us to study the evolution of NSCs in a cosmological context, by taking into account the growth of NSCs due to both dynamical-friction-driven migration of stellar clusters and star formation triggered by infalling gas, while also accounting for dynamical heating from (binary) MBHs. We find that in situ star formation contributes a significant fraction (up to similar to 80%) of the total mass of NSCs in our model. Both NSC growth through in situ star formation and that. through star cluster migration are found to generate NSC-host galaxy scaling correlations that are shallower than the same correlations for MBHs. We explore the role of galaxy mergers on the evolution of NSCs. and show that observational data on NSC-host galaxy scaling relations provide evidence of partial erosion of NSCs by MBH binaries in luminous galaxies. We show that this observational feature is reproduced by our models, and we make predictions about the NSC and MBH occupation fraction in galaxies. We conclude by discussing several implications for theories of NSC formation.
812
1
1
24
72
https://iopscience.iop.org/article/10.1088/0004-637X/812/1/72/meta
https://arxiv.org/abs/1506.02050
Antonini, F; Barausse, E; Silk, J
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11767/89697
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