Redshift distortions of galaxy correlation functions

Abstract

To examine how peculiar velocities can affect the 2-, 3-, and 4-point redshift correlation functions, we evaluate volume-average correlations for configurations that emphasize and minimize redshift distortions for four different volume-limited samples from each of the CfA, SSRS, and IRAS redshift catalogs. We find a characteristic distortion for the 2-point correlation, 2: the slope γ is flatter and the correlation length is larger in redshift space than in real space; that is, redshift distortions ``move'' correlations from small to large scales. At the largest scales (up to 12 ), the extra power in the redshift distribution is compatible with 4/7/b ≈ 1. We estimate 4/7/b to be 0.53 0.15, 1.10 0.16 and 0.84 0.45 for the CfA, SSRS and IRAS catalogs. Higher order correlations 3 and 4 suffer similar redshift distortions, but in such a way that, within the accuracy of our analysis, the normalized amplitudes S3 and S4 are insensitive to this effect. The hierarchical amplitudes S3 and S4 are constant as a function of scale between 1--12 and have similar values in all samples and catalogues, S3 ≈ 2 and S4 ≈ 6, despite the fact that 2, 3, and 4 differ from one sample to another by large factors (up to a factor of 4 in 2, 8 for 3, and 12 for 4). The agreement between the independent estimations of S3 and S4

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