Cosmological perturbation theory and the spherical collapse model — III. The velocity divergence field and the Ω dependence |
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| Authors: | Pablo Fosalba & Enrique Gaztañaga |
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| Institution: | Institut d'Estudis Espacials de Catalunya, Research Unit (CSIC), Edf. Nexus-201 - c/ Gran Capità2-4, 08034 Barcelona, Spain |
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| Abstract: | Cosmological perturbation theory (PT) is a useful tool to study the cumulants of the density and velocity fields in the large-scale structure of the Universe. In Papers I and II of this series we saw that the spherical collapse (SC) model provides the exact solution to PT at tree-level and gives a good approximation to the loop corrections (next-to-leading orders), indicating negligible tidal effects. Here, we derive predictions for the (smoothed) cumulants of the velocity divergence field θ ≡ ▽ ⊙ v for an irrotational fluid in the SC model. By comparing these with the exact analytic results of Scoccimarro &38; Frieman, it is shown that, at least for the unsmoothed case, the loop corrections to the cumulants of θ are dominated by tidal effects. However, most of the tidal contribution seems to cancel out when computing the hierarchical ratios, T J = 〈θ J 〉 / 〈θ2〉 J ?1. We also extend the work presented in Papers I and II to give predictions for the cumulants of the density and velocity divergence fields in non-flat spaces. In particular, we show the equivalence between the spherically symmetric solution to the equations of motion in the SC model (given in terms of the density) and that of the Lagrangian PT approach (given in terms of the displacement field). It is shown that the Ω dependence is very weak for both cosmic fields even at one loop (a 10 per cent effect at most), except for the overall factor f (Ω) that couples to the velocity divergence. |
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| Keywords: | methods: analytical galaxies: clusters: general cosmology: theory large-scale structure of Universe |
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