Galaxy cluster searches based on photometric redshifts in the four CFHTLS Wide fields

TL;DR

This paper presents a new photometric redshift-based method for detecting galaxy clusters in large surveys, applied to the CFHTLS Wide fields, resulting in a large catalog of candidate clusters across a broad redshift range.

Contribution

The study extends previous cluster detection methods to the CFHTLS Wide survey, producing a large, validated catalog of galaxy clusters up to redshift 1.15.

Findings

Detected 4061 candidate clusters in 154 deg2

Cluster properties match known characteristics and correlations

Significantly increased high-redshift cluster candidates

Abstract

We have developed a method for detecting clusters in large imaging surveys, based on the detection of structures in galaxy density maps made in slices of photometric redshifts. This method was first applied to the Canada France Hawaii Telescope Legacy Survey (CFHTLS) Deep 1 field by Mazure et al. (2007), then to all the Deep and Wide CFHTLS fields available in the T0004 data release by Adami et al. (2010). The validity of the cluster detection rate was estimated by applying the same procedure to galaxies from the Millennium simulation. Here we analyse with the same method the full CFHTLS Wide survey, based on the T0006 data release. In a total area of 154 deg2, we have detected 4061 candidate clusters at 3sigma or above (6802 at 2sigma and above), in the redshift range 0.1<=z<=1.15, with estimated mean masses between 1.3 10^14 and 12.6 10^14 M_solar. This catalogue of candidate clusters will be available online via VizieR. We compare our detections with those made in various CFHTLS analyses with other methods. By stacking a subsample of clusters, we show that this subsample has typical cluster characteristics (colour-magnitude relation, galaxy luminosity function). We also confirm that the cluster-cluster correlation function is comparable to that obtained for other cluster surveys and analyze large scale filamentary galaxy distributions. We have increased the number of known optical high redshift cluster candidates by a large factor, an important step towards obtaining reliable cluster counts to measure cosmological parameters. The clusters that we detect behave as expected for a sample of clusters fed by filaments at the intersection of which they are located.