Submillimetre Source Counts in the Fields of High-Redshift Galaxy Clusters

TL;DR

This study investigates submillimetre source counts in high-redshift galaxy clusters, finding a tentative excess of luminous galaxies potentially linked to cluster members or lensing effects, impacting interpretations of submillimetre surveys.

Contribution

It provides the first comparative analysis of submillimetre source counts in lensing and non-lensing high-redshift galaxy clusters, highlighting potential cluster member contributions.

Findings

Tentative 2.7-sigma excess of SMGs in lensing clusters.

Identification of cluster member SMGs with luminosities ~10^12 L_sun.

Removal of cluster members does not fully account for count differences.

Abstract

We present a submillimetre survey of seven high-z galaxy clusters (0.64<z<1.0) using the Submillimetre Common-User Bolometer Array (SCUBA) at 850 and 450 um. The targets, of similar richness and redshift, are selected from the Red-sequence Cluster Survey (RCS). We use this sample to investigate the apparent excess of submillimetre source counts in the direction of cluster fields compared to blank fields. The sample consists of three galaxy clusters that exhibit multiple optical arcs due to strong gravitational lensing, and a control group of four clusters with no apparent strong lensing. A tentative excess of 2.7-sigma is seen in the number density of submillimetre luminous galaxies (SMGs) within the lensing cluster fields compared to that in the control group. Ancillary observations at radio, mid-infrared, optical, and X-ray wavelengths allow for the identification of counterparts to many of the SMGs. Utilizing photometric redshifts, we conclude that at least three of the galaxies within the lensing fields have redshifts consistent with the clusters and implied infrared luminosities of ~10^12 Lsol. The existence of SMG cluster members may therefore be boosting source counts in the lensing cluster fields, which might be an effect of the dynamical state of those clusters. However, we find that the removal of potential cluster members from the counts analysis does not entirely eliminate the difference between the cluster samples. We also investigate possible occurrences of lensing between background SMGs and lower-z optical galaxies, though further observations are required to make any conclusive claims. Although the excess counts between the two cluster samples have not been unambiguously accounted for, these results warrant caution for interpreting submillimetre source counts in cluster fields and point source contamination for Sunyaev-Zel'dovich surveys. [Abridged]