The Evolution of Correlation Functions and Power Spectra in Gravitational Clustering

Abstract

Hamilton et al. (1991) proposed a simple formula relating the nonlinear autocorrelation function of the mass distribution to the primordial spectrum of density fluctuations for gravitational clustering in an =1 universe. High resolution N-body simulations show this formula to work well for scale-free spectra P(k) kn when the spectral index n 0, but not when n -1. We show that a modified version of the formula can work well provided its form depends on n. This dependence can be derived from a simple physical model for collapse from Gaussian initial conditions. Our modified formula is easy to apply and is an excellent fit to N-body simulations with 0 ≤ n ≤ -2. It can also be applied to non-power law initial spectra such as that of the standard Cold Dark Matter model by using the local spectral index at the current nonlinear scale as the effective value of n at any given redshift. We give analytic expressions both for the nonlinear correlation function and for the nonlinear power spectrum.

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