Scaling Relations and X-ray Properties of Moderate-Luminosity Galaxy Clusters from 0.3 < z < 0.6 with XMM-Newton

Abstract

We present new X-ray temperatures and improved X-ray luminosity estimates for 15 new and archival XMM-Newton observations of galaxy clusters at intermediate redshift with mass and luminosities near the galaxy group/cluster division (M2500 < 2.4× 1014 h70-1 M, L < 2× 1044 erg s-1, 0.3< z < 0.6). These clusters have weak-lensing mass measurements based on Hubble Space Telescope observations of clusters representative of an X-ray selected sample (the ROSAT 160SD survey). The angular resolution of XMM-Newton allows us to disentangle the emission of these galaxy clusters from nearby point sources, which significantly contaminated previous X-ray luminosity estimates for six of the fifteen clusters. We extend cluster scaling relations between X-ray luminosity, temperature, and weak-lensing mass for low-mass, X-ray-selected clusters out to redshift ≈0.45. These relations are important for cosmology and the astrophysics of feedback in galaxy groups and clusters. Our joint analysis with a sample of 50 clusters in a similar redshift range but with larger masses (M500 < 21.9 × 1014 M, 0.15 ≤ z ≤ 0.55) from the Canadian Cluster Comparison Project finds that within r2500, M L0.44 +/- 0.05, T L0.23 +/- 0.02, and M T1.9 +/- 0.2. The estimated intrinsic scatter in the M-L relation for the combined sample is reduced to σlog(M|L)=0.10, from σlog(M|L)=0.26 with the original ROSAT measurements. We also find an intrinsic scatter for the T-L relation, σlog(T|L)=0.07 +/- 0.01.