The richness dependence of galaxy cluster correlations: Results from a redshift survey of rich APM clusters
Abstract
We analyse the spatial clustering properties of a new catalogue of very rich galaxy clusters selected from the APM Galaxy Survey. These clusters are of comparable richness and space density to Abell Richness Class ≥ 1 clusters, but selected using an objective algorithm from a catalogue demonstrably free of artificial inhomogeneities. Evaluation of the two-point correlation function cc(r) for the full sample and for richer subsamples reveals that the correlation amplitude is consistent with that measured for lower richness APM clusters and X-ray selected clusters. We apply a maxmimum likelihood estimator to find the best fitting slope and amplitude of a power law fit to cc(r), and to estimate the correlation length r0 (the value of r at which cc(r) is equal to unity). For clusters with a mean space density of 1.6× 10-6 (equivalent to the space density of Abell Richness ≥ 2 clusters), we find r0=21.3+11.1-9.3 (95% confidence limits). This is consistent with the weak richness dependence of cc(r) expected in Gaussian models of structure formation. In particular, the amplitude of cc(r) at all richnesses matches that of cc(r) for clusters selected in N-Body simulations of a low density Cold Dark Matter model.
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