μ Masses: Weak Lensing Calibration of the Dark Energy Survey Year 1 redMaPPer Clusters using Stellar Masses

Abstract

We present the weak lensing mass calibration of the stellar mass based μ mass proxy for redMaPPer galaxy clusters in the Dark Energy Survey Year 1. For the first time we are able to perform a calibration of μ at high redshifts, z>0.33. In a blinded analysis, we use 6,000 clusters split into 12 subsets spanning the ranges 0.1 ≤slant z<0.65 and μ up to 5.5 × 1013 M, and infer the average masses of these subsets through modelling of their stacked weak lensing signal. In our model we account for the following sources of systematic uncertainty: shear measurement and photometric redshift errors, miscentring, cluster-member contamination of the source sample, deviations from the NFW halo profile, halo triaxiality and projection effects. We use the inferred masses to estimate the joint mass--μ--z scaling relation given by M200c | μ,z = M0 (μ/5.16× 1012 M)Fμ ((1+z)/1.35)Gz. We find M0= (1.14 0.07) × 1014 M with Fμ= 0.76 0.06 and Gz= -1.14 0.37. We discuss the use of μ as a complementary mass proxy to the well-studied richness λ for: i) exploring the regimes of low z, λ<20 and high λ, z 1; ii) testing systematics such as projection effects for applications in cluster cosmology.