Optimizing the Zel'dovich Approximation

Abstract

We have recently learned that the Zeldovich approximation can be successfully used for a far wider range of gravitational instability scenarios than formerly proposed; we study here how to extend this range. In previous work we studied the accuracy of several analytic approximations to gravitational clustering in the mildly nonlinear regime. We found that the ``truncated Zel'dovich approximation" (TZA) was better than any other (except in one case the ordinary Zeldovich approximation) over a wide range from linear to mildly nonlinear (σ 3) regimes. TZA sets Fourier amplitudes equal to zero for all wavenumbers greater than kn, where kn marks the transition to the nonlinear regime. Here, we study crosscorrelation of generalized TZA with a group of n--body simulations for three shapes of window function: sharp k--truncation (as in CMS), tophat in coordinate space, or a Gaussian. We also study the crosscorrelation as a function of initial scale within each window type. We find k--truncation, which was so much better than other things tried in CMS, is the it worst of these three window shapes. We find that a Gaussian window e-k2/2kG2 applied to the intial Fourier amplitudes is the best choice. It produces a greatly improved crosscorrelation all cases we studied. The optimum choice of kG for the Gaussian window is (spectrum-- dependent) 1--1.5 times kn, with kn defined by (3). Although all three windows produce similar power spectra and density distribution functions after application of the Zeldovich approximation, phase agreement with the n--body simulation is better for the Gaussian window. We ascribe Gaussian window success to its superior treatment of phase evolution.

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