Weak-lensing calibration of a stellar mass-based mass proxy for redMaPPer and Voronoi Tessellation clusters in SDSS Stripe 82

Abstract

We present the first weak lensing calibration of μ, a new galaxy cluster mass proxy corresponding to the total stellar mass of red and blue members, in two cluster samples selected from the SDSS Stripe 82 data: 230 redMaPPer clusters at redshift 0.1≤ z<0.33 and 136 Voronoi Tessellation (VT) clusters at 0.1 ≤ z < 0.6. We use the CS82 shear catalog and stack the clusters in μ bins to measure a mass-observable power law relation. For redMaPPer clusters we obtain M0 = (1.77 0.36) × 1014h-1 M, α = 1.74 0.62. For VT clusters, we find M0 = (4.31 0.89) × 1014h-1 M, α = 0.59 0.54 and M0 = (3.67 0.56) × 1014h-1 M, α = 0.68 0.49 for a low and a high redshift bin, respectively. Our results are consistent, internally and with the literature, indicating that our method can be applied to any cluster finding algorithm. In particular, we recommend that μ be used as the mass proxy for VT clusters. Catalogs including μ measurements will enable its use in studies of galaxy evolution in clusters and cluster cosmology.