X-ray Properties of the First SZE-selected Galaxy Cluster Sample from the South Pole Telescope

Abstract

We present results of X-ray observations of a sample of 15 clusters selected via their imprint on the cosmic microwave background (CMB) from the thermal Sunyaev-Zel'dovich (SZ) effect. These clusters are a subset of the first SZ-selected cluster catalog, obtained from observations of 178 deg2 of sky surveyed by the South Pole Telescope. Using X-ray observations with Chandra and XMM-Newton, we estimate the temperature, TX, and mass, Mg, of the intracluster medium (ICM) within r500 for each cluster. From these, we calculate YX=Mg TX and estimate the total cluster mass using a M500-YX scaling relation measured from previous X-ray studies. The integrated Comptonization, YSZ, is derived from the SZ measurements, using additional information from the X-ray measured gas density profiles and a universal temperature profile. We calculate scaling relations between the X-ray and SZ observables, and find results generally consistent with other measurements and the expectations from simple self-similar behavior. Specifically, we fit a YSZ-YX relation and find a normalization of 0.82 +- 0.07, marginally consistent with the predicted ratio of YSZ/YX=0.91+-0.01 that would be expected from the density and temperature models used in this work. Using the YX derived mass estimates, we fit a YSZ-M500 relation and find a slope consistent with the self-similar expectation of YSZ ~ M5/3 with a normalization consistent with predictions from other X-ray studies. We compare the X-ray mass estimates to previously published SZ mass estimates derived from cosmological simulations of the SPT survey. We find that the SZ mass estimates are lower by a factor of 0.89+-0.06, which is within the ~15% systematic uncertainty quoted for the simulation-based SZ masses.