The Richness-Dependent Cluster Correlation Function: Early SDSS Data
Abstract
The cluster correlation function and its richness dependence are determined from 1108 clusters of galaxies -- the largest sample of clusters studied so far -- found in 379 deg2 of Sloan Digital Sky Survey early data. The results are compared with previous samples of optically and X-ray selected clusters. The richness-dependent correlation function increases monotonically from an average correlation scale of ~ 12 h-1 Mpc for poor clusters to ~ 25 h-1 Mpc for the richer, more massive clusters with a mean separation of ~ 90 h-1 Mpc. X-ray selected clusters suggest slightly stronger correlations than optically selected clusters (~ 2-σ). The results are compared with large-scale cosmological simulations. The observed richness-dependent cluster correlation function is well represented by the standard flat LCDM model (m ~= 0.3, h ~= 0.7), and is inconsistent with the considerably weaker correlations predicted by m = 1 models. An analytic relation for the correlation scale versus cluster mean separation, r0 - d, that best describes the observations and the LCDM prediction is r0 ~= 2.6 d (for d ~= 20 - 90 h-1 Mpc). Data from the complete Sloan Digital Sky Survey, when available, will greatly enhance the accuracy of the results and allow a more precise determination of cosmological parameters.
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