On a possible cosmological evolution of galaxy cluster Y X-Y SZE scaling relation

Abstract

An important result from self-similar models that describe the process of galaxy cluster formation is the simple scaling relation Y SZED A2/C XSZEY X= C. In this ratio, Y SZE is the integrated Sunyaev-Zel'dovich effect flux of a cluster, its x-ray counterpart is Y X, C XSZE and C are constants and D A is the angular diameter distance to the cluster. In this paper, we consider the cosmic distance duality relation validity jointly with type Ia supernovae observations plus 61 Y SZED A2/C XSZEY X measurements as reported by the Planck Collaboration to explore if this relation is constant in the redshift range considered (z<0.5). No one specific cosmological model is used. As basic result, although the data sets are compatible with no redshift evolution within 2σ c.l., a Bayesian analysis indicates that other C(z) functions analyzed in this work cannot be discarded. It is worth to stress that the observational determination of an universal C(z) function turns the Y SZED A2/C XSZEY X ratio in an useful cosmological tool to determine cosmological parameters.