Keck Spectroscopy and Imaging of Globular Clusters in the Lenticular Galaxy NGC 524

Abstract

We have obtained Keck LRIS imaging and spectra for 29 globular clusters associated with the lenticular galaxy NGC 524. Using the empirical calibration of Brodie & Huchra we find that our spectroscopic sample spans a metallicity range of --2.0 < [Fe/H] < 0. We have compared the composite spectrum of the metal-poor ([Fe/H] < --1) and metal-rich clusters with stellar population models and conclude that the clusters are generally old and coeval at the 2 sigma confidence level. To determine the mean [alpha/Fe] ratios of the globular clusters, we have employed the Milone et al. 'alpha-enhanced' stellar population models. We verified the reliability of these models by comparing them with high S/N Galactic globular cluster data. We observe a weak trend of decreasing [alpha/Fe] with increasing metallicity in the NGC 524 clusters. Analysis of the cluster system kinematics reveals that the full sample exhibits a rotation of 114+/-60 km/s around a position angle of 22+/-27 deg, and a velocity dispersion of 186+/-29 km/s at a mean radius of 89 arcsec from the galaxy centre. Subdividing the clusters into metal-poor and metal-rich subcomponents we find that the metal-poor (17) clusters and metal-rich (11) clusters have similar velocity dispersions (197+/-40 km/s and 169+/-47 km/s respectively). The metal-poor clusters dominate the rotation in our sample with 147+/-75 km/s, whilst the metal-rich clusters show no significant rotation (68+/-84 km/s). We derive a virial and projected mass estimation for NGC 524 of between 4 and 13 x 10^11 Msun (depending on the assumed orbital distribution) interior to 2 effective radii of this galaxy.