Investigating the MGCS-Mh Relation in the Most Massive Galaxies

Abstract

The relation between the total mass contained in the globular clusters of a galaxy and the mass of its dark matter halo has been found observationally to be nearly linear over five decades of mass. However, the high-mass end of this relation is not well determined from previous data and shows large scatter. We analyze the globular cluster systems (GCSs) of a homogeneous sample of 11 brightest cluster galaxies (BCGs) through DOLPHOT photometry of their deep Hubble Space Telescope (HST) images in the F814W filter. We standardize the definition of MGCS, the total GCS mass, by using the GC total population within a limiting radius of 0.1 Rvirial, while the dark-matter halo mass Mh is determined from the weak-lensing calibration of Mh versus Mbary. When these 11 BCGs are added to the previously studied homogeneous catalogue of Virgo member galaxies, a total value for η = MGCS/Mh is found to be (3.01.8internal)×10-5, slightly higher than previous estimates but with much reduced uncertainty. Perhaps more importantly, the results suggest that the relation continues to have a near-linear shape at the highest galaxy masses, strongly reinforcing the conclusion that accreted GCs make a major contribution to the GC populations at high galaxy mass.