Star Clusters in Tidal Debris
Abstract
We present results of a Hubble Space Telescope (HST) UBVI-band study of star clusters in tidal tails, using new WFC3 and ACS imaging to complement existing WFPC2 data. We survey 12 tidal tails across seven merging systems, deriving ages and masses for 425 star cluster candidates (SCCs). The stacked mass distribution across all systems follows a power law of the form , with , consistent with what is seen in other star forming environments. GALEX and Swift UV imaging provide star formation rates (SFRs) for our tidal tails, which when compared with ages and masses of our SCCs, allows for a determination of the cluster formation efficiency (CFE). We find the CFE increases with increasing SFR surface density, matching the theoretical model. We confirm this fit down at SFR densities lower than previously measured (log ), as related to the CFE. We determine the half-light radii for a refined sample of 57 SCCs with our HST WFC3 and ACS imaging, and calculate their dynamical age, finding the majority of them to be gravitationally bound. We also provide evidence of only low-mass () cluster formation in our nearest galaxy, NGC 1487, consistent with the theory that this system is a dwarf merger.
Cite
@article{arxiv.2309.10267,
title = {Star Clusters in Tidal Debris},
author = {Michael Rodruck and Jane Charlton and Sanchayeeta Borthakur and Aparna Chitre and Patrick R. Durrell and Debra Elmegreen and Jayanne English and Sarah C. Gallagher and Caryl Gronwall and Karen Knierman and Iraklis Konstantopoulos and Yuexing Li and Moupiya Maji and Brendan Mullan and Gelys Trancho and William Vacca},
journal= {arXiv preprint arXiv:2309.10267},
year = {2023}
}
Comments
26 pages, 27 figures. Accepted at MNRAS