Astrophysics > Astrophysics of Galaxies
[Submitted on 30 Oct 2023]
Title:Collisional Shaping of Nuclear Star Cluster Density Profiles
View PDFAbstract:A supermassive black hole (SMBH) surrounded by a dense, nuclear star cluster resides at the center of many galaxies. In this dense environment, high-velocity collisions frequently occur between stars. About $10 \%$ of the stars within the Milky Way's nuclear star cluster collide with other stars before evolving off the main-sequence. Collisions preferentially affect tightly-bound stars, which orbit most quickly and pass through regions of the highest stellar density. Over time, collisions therefore shape the bulk properties of the nuclear star cluster. We examine the effect of collisions on the cluster's stellar density profile. We show that collisions produce a turning point in the density profile which can be determined analytically. Varying the initial density profile and collision model, we characterize the evolution of the stellar density profile over $10$ Gyr. We find that old, initially cuspy populations exhibit a break around $0.1$ pc in their density profile, while shallow density profiles retain their initial shape outside of $0.01$ pc. The initial density profile is always preserved outside of a few tenths of parsec irrespective of initial conditions. Lastly, we comment on the implications of collisions for the luminosity and color of stars in the collisionly-shaped inner cluster.
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