Testing Tree-Level Perturbation Theory for Large-Scale Structure with the Local Lagrangian Approximation
Abstract
We test tree-level perturbation theory for Gaussian initial conditions with power spectra P(k) kn by comparing the probability distribution function (PDF) for the density predicted by the Local Lagrangian Approximation (LLA) with the results of numerical gravitational clustering simulations. Our results indicate that our approximation correctly reproduces the evolved density PDF for -3 ≤ n ≤-1 power spectra up to the weakly nonlinear regime, while it shows marginal agreement for power indices n=0 and +1 in the linear regime and poor agreement beyond this point. This suggests that tree-level perturbation theory (as realized in the Local Lagrangian Approximation) can accurately predict the density distribution function for -3 ≤ n ≤ -1 but fails for n 0.
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