The correlation function of galaxy clusters and detection of baryon acoustic oscillations

Abstract

We calculate the correlation function of 13,904 galaxy clusters of z ≤ 0.4 selected from the cluster catalog of Wen, Han & Liu. The correlation function can be fitted with a power-law model (r)=(r/R0)γ on the scales of 10h(-1)Mpc ≤ r ≤ 50h(-1)Mpc, with a larger correlation length of R0=18.840.27 h(-1)Mpc for clusters with a richness of R ≥ 15 and a smaller length of R0=16.15 0.13 h(-1)Mpc for clusters with a richness of R ≥ 5. The power law index of γ=2.1 is found to be almost the same for all cluster subsamples. A pronounced baryon acoustic oscillations (BAO) peak is detected at r ~ 110 h(-1)Mpc with a significance of ~ 1.9σ. By analyzing the correlation function in the range of 20 h(-1)Mpc ≤ r ≤ 200 h(-1)Mpc, we find the constraints on distance parameters are Dv(0.276)=107755(1σ) Mpc and h=0.73 0.039 (1σ), which are consistent with the WMAP 7-year cosmology. However, the BAO signal from the cluster sample is stronger than expected and leads to a rather low matter density m h2=0.0930.0077 (1σ), which deviates from the WMAP 7-year result by more than 3 σ. The correlation function of the GMBCG cluster sample is also calculated and our detection of the BAO feature is confirmed.