Reconstruction of cosmological initial conditions from galaxy redshift catalogues |
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Authors: | Pierluigi Monaco George Efstathiou |
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Affiliation: | Institute of Astronomy, Madingley Road, Cambridge CB3 0HA; Dipartimento di Astronomia, Via Tiepolo 11, 34131 Trieste, Italy |
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Abstract: | We present and test a new method for the reconstruction of cosmological initial conditions from a full-sky galaxy catalogue. This method, called ZTRACE, is based on a self-consistent solution of the growing mode of gravitational instabilities according to the Zel'dovich approximation and higher order in Lagrangian perturbation theory. Given the evolved redshift-space density field, smoothed on some scale, ZTRACE finds, via an iterative procedure, an approximation to the initial density field for any given set of cosmological parameters; real-space densities and peculiar velocities are also reconstructed. The method is tested by applying it to N -body simulations of an Einstein–de Sitter and an open cold dark matter universe. It is shown that errors in the estimate of the density contrast dominate the noise of the reconstruction. As a consequence, the reconstruction of real-space density and peculiar velocity fields using non-linear algorithms is little improved over those based on linear theory. The use of a mass-preserving adaptive smoothing, equivalent to a smoothing in Lagrangian space, allows an unbiased (although noisy) reconstruction of initial conditions, as long as the (linearly extrapolated) density contrast does not exceed unity. The probability distribution function of the initial conditions is recovered to high precision, even for Gaussian smoothing scales of ∼5 h −1 Mpc, except for the tail at δ ≥1. This result is insensitive to the assumptions of the background cosmology. |
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Keywords: | catalogues galaxies: clusters: general galaxies: distances and redshifts cosmology: theory dark matter large-scale structure of Universe |
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