The RedGOLD Cluster Detection Algorithm and its Cluster Candidate Catalogue for the CFHT-LS W1

Abstract

RedGOLD searches for red-sequence galaxy overdensities while minimizing contamination from dusty star-forming galaxies. It imposes an NFW profile and calculates cluster detection significance and richness. We optimize these latter two parameters using both simulations and X-ray detected cluster catalogs, and obtain a catalog 80\% pure up to z 1, and 100\% ( 70\%) complete at z 0.6 ( z1) for galaxy clusters with M 1014\ M at the CFHT-LS Wide depth. In the CFHT-LS W1, we detect 11 cluster candidates per deg2 out to z1.1. When we optimize both completeness and purity, RedGOLD obtains a cluster catalog with higher completeness and purity than other public catalogs, obtained using CFHT-LS W1 observations, for M 1014\ M. We use X-ray detected cluster samples to extend the study of the X-ray temperature-optical richness relation to a lower mass threshold, and find a mass scatter at fixed richness of σlnM|λ=0.390.07 and σlnM|λ=0.300.13 for the Gozaliasl et al. (2014) and Mehrtens et al. (2012) samples. When considering similar mass ranges as previous work, we recover a smaller scatter in mass at fixed richness. We recover 93\% of the redMaPPer detections, and find that its richness estimates is on average 40-50\% larger than ours at z>0.3. RedGOLD recovers X-ray cluster spectroscopic redshifts at better than 5\% up to z1, and the centers within a few tens of arcseconds.