Searching for filaments and large-scale structure around DAFT/FADA clusters

TL;DR

This study uses deep wide field photometric data to detect and analyze filaments and large-scale structures around galaxy clusters at redshifts 0.4 to 0.9, revealing significant elongations and neighboring structures.

Contribution

Introduces a simple density map method to identify filaments and extensions around high-redshift clusters using red sequence galaxy selection.

Findings

Detected elongations in 12 clusters up to 7.6 Mpc.

Identified neighboring structures in 11 clusters.

Method effectively reveals filaments at z=0.4-0.9.

Abstract

Clusters of galaxies are at the intersection of cosmic filaments and are still accreting galaxies and groups along these preferential directions, but, because of their relatively low contrast on the sky, they are difficult to detect (unless a large amount of spectroscopic data are available), and unambiguous detections have been limited until now to relatively low redshifts (z<0.3). We searched for extensions and filaments around the thirty clusters of the DAFT/FADA survey (redshift range 0.4<z<0.9) with deep wide field photometric data. For each cluster, based on a colour-magnitude diagram, we selected galaxies that were likely to belong to the red sequence, and hence to be at the cluster redshift, and built density maps. By computing the background for each map and drawing 3sigma contours, we estimated the elongations of the structures detected in this way. Whenever possible, we identified the other structures detected on the density maps with clusters listed in NED. We found clear elongations in twelve clusters, with sizes reaching up to 7.6 Mpc. Eleven other clusters have neighbouring structures, but the zones linking them are not detected in the density maps at a 3sigma level. Three clusters show no extended structure and no neighbours, and four clusters are of too low contrast to be clearly visible on our density maps. The simple method we have applied appears to work well to show the existence of filaments and/or extensions around a number of clusters in the redshift range 0.4<z<0.9. We plan to apply it to other large cluster samples such as the clusters detected in the CFHTLS and SDSS-Stripe 82 surveys in the near future.