Mass Variance from Archival X-ray Properties of Dark Energy Survey Year-1 Galaxy Clusters

Abstract

Using archival X-ray observations and a log-normal population model, we estimate constraints on the intrinsic scatter in halo mass at fixed optical richness for a galaxy cluster sample identified in Dark Energy Survey Year-One (DES-Y1) data with the redMaPPer algorithm. We examine the scaling behavior of X-ray temperatures, TX, with optical richness, λRM, for clusters in the redshift range 0.2<z<0.7. X-ray temperatures are obtained from Chandra and XMM observations for 58 and 110 redMaPPer systems, respectively. Despite non-uniform sky coverage, the TX measurements are > 50\% complete for clusters with λRM > 130. Regression analysis on the two samples produces consistent posterior scaling parameters, from which we derive a combined constraint on the residual scatter, σ Tx | λ = 0.275 0.019. Joined with constraints for TX scaling with halo mass from the Weighing the Giants program and richness--temperature covariance estimates from the LoCuSS sample, we derive the richness-conditioned scatter in mass, σ M | λ = 0.30 0.04\, ( stat) 0.09\, ( sys), at an optical richness of approximately 70. Uncertainties in external parameters, particularly the slope and variance of the TX--mass relation and the covariance of TX and λRM at fixed mass, dominate the systematic error. The 95\% confidence region from joint sample analysis is relatively broad, σ M | λ ∈ [0.14, \, 0.55], or a factor ten in variance.