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Consistent modeling of velocity statistics and redshift-space distortions in one-loop perturbation theory

Shi-Fan ChenDepartment of Physics, University of California, Berkeley, CA 94720, U.S.AZvonimir VlahTheory Department, CERN, CH-1211 Geneve 23, SwitzerlandMartin WhiteDepartment of Physics, University of California, Berkeley, CA 94720, U.S.A
2020en
ABI

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The peculiar velocities of biased tracers of the cosmic density field contain important information about the growth of large scale structure and generate anisotropy in the observed clustering of galaxies. Using N-body data, we show that velocity expansions for halo redshift-space power spectra are converged at the percent-level at perturbative scales for most line-of-sight angles $\mu$ when the first three pairwise velocity moments are included, and that the third moment is well-approximated by a counterterm-like contribution. We compute these pairwise-velocity statistics in Fourier space using both Eulerian and Lagrangian one-loop perturbation theory using a cubic bias scheme and a complete set of counterterms and stochastic contributions. We compare the models and show that our models fit both real-space velocity statistics and redshift-space power spectra for both halos and a mock sample of galaxies at sub-percent level on perturbative scales using consistent sets of parameters, making them appealing choices for the upcoming era of spectroscopic, peculiar-velocity and kSZ surveys.

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