XMM-Newton Observations of Evolution of Cluster X-Ray Scaling Relations at z=0.4-0.7

Abstract

We present a spatially-resolved analysis of the temperature and gas density profiles of galaxy clusters at z=0.4-0.7 observed with XMM-Newton. These data are used to derive the total cluster mass within the radius r500 without assuming isothermality, and also to measure the average temperature and total X-ray luminosity excluding the cooling cores. We derive the high-redshift M-T and L-T relations and compare them with the local measurements. The high-redshift L-T relation has low scatter and evolves as L ~ (1+z)1.80.3 for a fixed T, in good agreement with several previous Chandra and XMM-Newton studies (Vikhlinin et al., Lumb et al., Maughan et al.). The observed evolution of the M-T relation follows M500 = A T3/2 E(z)-alpha, where we measure alpha=0.880.23. This is in good agreement with predictions of the self-similar theory, alpha=1.

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