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Stellar streams from black hole-rich star clusters

Stellar streams from black hole-rich star clusters
Stellar streams from black hole-rich star clusters
Nearly a hundred progenitor-less, thin stellar streams have been discovered in the Milky Way, thanks to Gaia and related surveys. Most streams are believed to have formed from star clusters and it was recently proposed that extended star clusters - rich in stellar-mass black holes (BHs) - are efficient in creating streams. To understand the nature of stream progenitors better, we quantify the differences between streams originating from star clusters with and without BHs using direct $N$-body models and a new model for the density profiles of streams based on time-dependent escape rates from clusters. The QSG (Quantifying Stream Growth) model facilitates the rapid exploration of parameter space and provides an analytic framework to understand the impact of different star cluster properties and escape conditions on the structure of streams. Using these models it is found that, compared to streams from BH-free clusters on the same orbit, streams of BH-rich clusters: (1) are approximately five times more massive; (2) have a peak density three times closer to the cluster 1 Gyr post-dissolution (for orbits of Galactocentric radius > 10 kpc), and (3) have narrower peaks and more extended wings in their density profile. We discuss other observable stream properties that are affected by the presence of BHs in their progenitor cluster, namely the width of the stream, its radial offset from the orbit, and the properties of the gap at the progenitor's location. Our results provide a step towards using stellar streams to constrain the BH content of dissolved (globular) star clusters.
astro-ph.GA, Galaxy: halo, Galaxy: structure, stars: black holes, Galaxy: kinematics and dynamics, globular clusters: general, galaxies: star clusters: general
1365-2966
454-469
Roberts, Daniel
175dd5cf-59d7-4958-b4c9-9e00a01d0acf
Gieles, Mark
84579b34-abdb-48b5-b968-9d0831ba6acd
Erkal, Denis
ea1a357b-2332-45dc-841c-d8fccff5f6be
Sanders, Jason L.
dd0f07aa-33bb-47a3-9572-121a025122a6
Roberts, Daniel
175dd5cf-59d7-4958-b4c9-9e00a01d0acf
Gieles, Mark
84579b34-abdb-48b5-b968-9d0831ba6acd
Erkal, Denis
ea1a357b-2332-45dc-841c-d8fccff5f6be
Sanders, Jason L.
dd0f07aa-33bb-47a3-9572-121a025122a6

Roberts, Daniel, Gieles, Mark, Erkal, Denis and Sanders, Jason L. (2025) Stellar streams from black hole-rich star clusters. Monthly Notices of the Royal Astronomical Society, 538 (1), 454-469. (doi:10.1093/mnras/staf321).

Record type: Article

Abstract

Nearly a hundred progenitor-less, thin stellar streams have been discovered in the Milky Way, thanks to Gaia and related surveys. Most streams are believed to have formed from star clusters and it was recently proposed that extended star clusters - rich in stellar-mass black holes (BHs) - are efficient in creating streams. To understand the nature of stream progenitors better, we quantify the differences between streams originating from star clusters with and without BHs using direct $N$-body models and a new model for the density profiles of streams based on time-dependent escape rates from clusters. The QSG (Quantifying Stream Growth) model facilitates the rapid exploration of parameter space and provides an analytic framework to understand the impact of different star cluster properties and escape conditions on the structure of streams. Using these models it is found that, compared to streams from BH-free clusters on the same orbit, streams of BH-rich clusters: (1) are approximately five times more massive; (2) have a peak density three times closer to the cluster 1 Gyr post-dissolution (for orbits of Galactocentric radius > 10 kpc), and (3) have narrower peaks and more extended wings in their density profile. We discuss other observable stream properties that are affected by the presence of BHs in their progenitor cluster, namely the width of the stream, its radial offset from the orbit, and the properties of the gap at the progenitor's location. Our results provide a step towards using stellar streams to constrain the BH content of dissolved (globular) star clusters.

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Accepted/In Press date: 18 February 2025
e-pub ahead of print date: 21 February 2025
Published date: 4 March 2025
Keywords: astro-ph.GA, Galaxy: halo, Galaxy: structure, stars: black holes, Galaxy: kinematics and dynamics, globular clusters: general, galaxies: star clusters: general
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Identifiers

Local EPrints ID: 501061
URI: http://eprints.soton.ac.uk/id/eprint/501061
DOI: doi:10.1093/mnras/staf321
ISSN: 1365-2966
PURE UUID: e7da81aa-f66d-428a-9109-a0be50b08e1b

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Date deposited: 21 May 2025 16:52
Last modified: 29 Aug 2025 16:57

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Contributors

Author: Daniel Roberts
Author: Mark Gieles
Author: Denis Erkal
Author: Jason L. Sanders

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