English

The Arches Cluster: Extended Structure and Tidal Radius

Solar and Stellar Astrophysics 2015-09-17 v1 Astrophysics of Galaxies

Abstract

At a projected distance of ~26 pc from Sgr A*, the Arches cluster provides insight to star formation in the extreme Galactic Center (GC) environment. Despite its importance, many key properties such as the cluster's internal structure and orbital history are not well known. We present an astrometric and photometric study of the outer region of the Arches cluster (R > 6.25") using HST WFC3IR. Using proper motions we calculate membership probabilities for stars down to F153M = 20 mag (~2.5 M_sun) over a 120" x 120" field of view, an area 144 times larger than previous astrometric studies of the cluster. We construct the radial profile of the Arches to a radius of 75" (~3 pc at 8 kpc), which can be well described by a single power law. From this profile we place a 3-sigma lower limit of 2.8 pc on the observed tidal radius, which is larger than the predicted tidal radius (1 - 2.5 pc). Evidence of mass segregation is observed throughout the cluster and no tidal tail structures are apparent along the orbital path. The absence of breaks in the profile suggests that the Arches has not likely experienced its closest approach to the GC between ~0.2 - 1 Myr ago. If accurate, this constraint indicates that the cluster is on a prograde orbit and is located front of the sky plane that intersects Sgr A*. However, further simulations of clusters in the GC potential are required to interpret the observed profile with more confidence.

Keywords

Cite

@article{arxiv.1509.04716,
  title  = {The Arches Cluster: Extended Structure and Tidal Radius},
  author = {Matthew W. Hosek and Jessica R. Lu and Jay Anderson and Andrea M. Ghez and Mark R. Morris and William I. Clarkson},
  journal= {arXiv preprint arXiv:1509.04716},
  year   = {2015}
}

Comments

24 pages (17-page main text, 7-page appendix), 24 figures, accepted to ApJ

R2 v1 2026-06-22T10:57:36.720Z