BAO Extractor: bias and redshift space effects
Abstract
We study a new procedure to measure the sound horizon scale via Baryonic Acoustic Oscillations (BAO). Instead of fitting the measured power spectrum (PS) to a theoretical model containing the cosmological informations and all the nonlinear effects, we define a procedure to project out (or to "extract") the oscillating component from a given nonlinear PS. We show that the BAO scale extracted in this way is extremely robust and, moreover, can be reproduced by simple theoretical models at any redshift. By using N-body simulations, we discuss the effect of the nonlinear evolution of the matter field, of redshift space distortions and of scale-dependent halo bias, showing that all these effects can be reproduced with sub-percent accuracy. We give a one-parameter theoretical model based on a simple (IR) modification of 1-loop perturbation theory, which reproduces the BAO scale from measurements of halo clustering in redshift space at better than level and does not need any external UV input, such as coefficients measured from N-body simulations.
Keywords
Cite
@article{arxiv.1708.00375,
title = {BAO Extractor: bias and redshift space effects},
author = {Takahiro Nishimichi and Eugenio Noda and Marco Peloso and Massimo Pietroni},
journal= {arXiv preprint arXiv:1708.00375},
year = {2018}
}
Comments
Published version. 32 pages, 15 figures