The Arches cluster revisited: I. Data presentation and stellar census

J. S. Clark, M. E. Lohr, F. Najarro, H. Dong, F. Martins

Published 2018-03-26Version 1

Located within the central region of the Galaxy, the Arches cluster appears to be one of the youngest, densest and most massive stellar aggregates within the Milky Way. As such it has the potential to be a uniquely instructive laboratory for the study of star formation in extreme environments and the physics of very massive stars. In order to determine the fundamental physical properties of both cluster and constituent stars, we provide and analyse new HST+VLT near-IR datasets. Stacking multiple epochs of spectroscopy results in the deepest view of the cluster ever obtained, allowing us to to identify candidate giant and main sequence stars for the first time. All cluster members are found to be WNLh or O stars, with the smooth and continuous progression in spectral morphologies from O super-/hypergiants through to the WNLh cohort implying a direct evolutionary connection. Importantly no H-free Wolf-Rayets are found, while no products of binary interaction/mass-transfer may be unambiguously identified, despite the presence of massive binaries within the Arches. We infer a main sequence turn-off around O4-5V, corresponding to ~30-38Msun, while the eclipsing binary F2 implies current masses of ~80Msun and ~60Msun for the WNLh and O hypergiant cohorts, respectively. A cluster age of ~2-3Myr is suggested by the location of the main-sequence turn-off. While the absence of H-free Wolf-Rayets argues against the prior occurrence of SNe, such an age does accommodate such events for exceptionally massive stars. Future progress requires quantitative analysis of cluster members combined with additional spectroscopic observations to better constrain the binary population; nevertheless it is already abundantly clear that the Arches offers an unprecedented insight into the formation, evolution and death of the most massive stars Nature allows to form in the local universe (Abridged).