Velocity Dispersions of CNOC Clusters and the Evolution of the Cluster Abundance

Abstract

We present the results of the analysis of the internal velocity dispersions, σv, for the CNOC sample of distant galaxy clusters, based on an interlopers removal algorithm, which is different from that originally applied by Carlberg et al. (1996, C96). We find that the resulting σv values are consistent within <10% with the original C96 estimates. This result points in favor of a substantial robustness of currently applied methods for optical studies of the internal cluster dynamics. The resulting distribution of velocity dispersions is used to trace the redshift evolution of the cluster abundance with the aim of constraining the matter density parameter, m. We find that constraints on m are very sensitive to the adopted value of σ8, as obtainable from the local cluster abundance: as σ8 varies from 0.5 to 0.6 (for Omegam=1), the best fitting Omegam varies in the range 0.3-1.0.

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