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We studied the distortion of the apparent distribution of galaxies in redshift space contaminated by the peculiar velocity effect. Specifically we obtained the expressions for N-point correlation functions in redshift space with given functional form for velocity distribution f (v) and evaluated two- and three-point correlation functions quantitatively. The effect of velocity correlations is also discussed. When the two-point correlation function in real space has a power-law form, ξ^ (r) ^ (r) is proportional to r^-γ^, the redshift-space counterpart on small scales also has a power-law form but with an increased power-law index: ξ^ (s) ^ (S) is proportional to s¹-γ^. When the three-point correlation function has the hierarchical form and the two-point correlation function has the power-law form in real space, the hierarchical form of the three-point correlation function is almost preserved in redshift space. The above analytic results are compared with the direct analysis based on fit-body simulation data for -cold dark matter models. Implications on the hierarchical clustering ansatz are discussed in detail.
Takahiko Matsubara (Tue,) studied this question.