Globular Cluster Systems and X-Ray Atmospheres in Galaxies

Abstract

We compare the empirical relationships between the mass of a galaxy's globular system MGCS, the gas mass in the hot X-ray atmosphere MX within a fiducial radius of 5 re, the total gravitational mass Mgrav within 5 re, and lastly the total halo mass Mh calibrated from weak lensing. We use a sample of 45 early-type galaxies (ETGs) for which both GCS and X-ray data are available; all the galaxies in our sample are relatively high-mass ones with Mh > 1012 Msun. We find that MX ~ Mh1.0, similar to the previously known scaling relation MGCS ~ Mh1.0. Both components scale much more steeply than the more well known dependence of total stellar mass Mstar ~ Mh0.3 for luminous galaxies. These results strengthen previous suggestions that feedback had little effect on formation of the globular cluster system. The current data are also used to measure the relative mass fractions of baryonic matter and dark matter (DM) within 5 re. We find a strikingly uniform mean of <fDM> = 0.83 with few outliers and an rms scatter of +-0.07. This result is in good agreement with two recent suites of hydrodynamic galaxy formation models.