Compact Object Modeling in the Globular Cluster 47 Tucanae

TL;DR

This paper presents detailed dynamical models of the globular cluster 47 Tucanae using the Cluster Monte Carlo code, successfully reproducing observed properties and revealing insights into its exotic stellar populations and formation mechanisms.

Contribution

The study introduces new prescriptions for binary formation via giant star collisions and tidal captures in the CMC code, providing a comprehensive model of 47 Tuc's stellar populations.

Findings

Model reproduces surface brightness and velocity dispersion profiles.

Approximately 50 millisecond pulsars are present, mostly formed through collisions and captures.

Suggests 47 Tuc contains up to 200 stellar-mass black holes and other compact objects.

Abstract

The globular cluster 47~Tucanae (47~Tuc) is one of the most massive star clusters in the Milky Way and is exceptionally rich in exotic stellar populations. For several decades it has been a favorite target of observers, and yet it is computationally very challenging to model because of its large number of stars ($N\gtrsim 10^6$) and high density. Here we present detailed and self-consistent 47~Tuc models computed with the \texttt{Cluster Monte Carlo} code (\texttt{CMC}). The models include all relevant dynamical interactions coupled to stellar and binary evolution, and reproduce various observations, including the surface brightness and velocity dispersion profiles, pulsar accelerations, and numbers of compact objects. We show that the present properties of 47~Tuc are best reproduced by adopting an initial stellar mass function that is both bottom-heavy and top-light relative to standard assumptions \citep[as in, e.g.,][]{Kroupa2001}, and an initial Elson profile \citep{Elson1987} that is overfilling the cluster's tidal radius. We include new prescriptions in \texttt{CMC} for the formation of binaries through giant star collisions and tidal captures, and we show that these mechanisms play a crucial role in the formation of neutron star binaries and millisecond pulsars in 47~Tuc; our best-fit model contains $\sim 50$ millisecond pulsars, $70\%$ of which are formed through giant collisions and tidal captures. Our models also suggest that 47~Tuc presently contains up to $\sim 200$ stellar-mass black holes, $\sim 5$ binary black holes, $\sim 15$ low-mass X-ray binaries, and $\sim 300$ cataclysmic variables.