The Evolution and Mass Dependence of Galaxy Cluster Pressure Profiles at 0.05 z 0.60 and 4 × 1014 M M500 30 × 1014 M_

Abstract

We have combined X-ray observations from Chandra with Sunyaev-Zel'dovich (SZ) effect data from Planck and Bolocam to measure intra-cluster medium pressure profiles from 0.03R500 R 5R500 for a sample of 21 low-z galaxy clusters with a median redshift z = 0.08 and a median mass M500 = 6.1 × 1014 M and a sample of 19 mid-z galaxy clusters with z = 0.50 and M500 = 10.6 × 1014 M. The mean scaled pressure in the low-z sample is lower at small radii and higher at large radii, a trend that is accurately reproduced in similarly selected samples from The300 simulations. This difference appears to be primarily due to dynamical state at small radii, evolution at intermediate radii, and a combination of evolution and mass dependence at large radii. Furthermore, the overall flattening of the mean scaled pressure profile in the low-z sample compared to the mid-z sample is consistent with expectations due to differences in mass accretion rate and the fractional impact of feedback mechanisms. In agreement with previous studies, the fractional scatter about the mean scaled pressure profile reaches a minimum of 20 per cent near 0.5R500. This scatter is consistent between the low-z and mid-z samples at all radii, suggesting it is not strongly impacted by sample selection, and this general behavior is reproduced in The300 simulations. Finally, analytic functions that approximately describe the mass and redshift trends in mean pressure profile shape are provided.

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