The effect of relative velocity and density perturbations between baryons and dark matter on the clustering of galaxies

Abstract

Pre-recombination acoustic oscillations induce non-adiabatic perturbations between baryons and dark matter, corresponding to a constant relative-density δbc and decaying relative-velocity perturbation vbc. Due to their significant large-scale correlations and prominent baryon acoustic oscillation (BAO) features, these modes are potentially important for the use of the BAO as standard ruler. We present a complete treatment of the effects of the baryon-CDM perturbations on galaxy clustering in the context of a rigorous perturbative bias expansion. The leading effects are proportional to δbc and θbc = ∂i vbci. We estimate the magnitude of these terms through the excursion set approach. The contribution from vbc2, which has attracted significant attention recently, contributes at subleading (1-loop) order. The relative-density contribution δbc is expected to be by far the largest contribution. We also point out contributions to the galaxy velocity bias, the largest of which is simply vbc, leading to a term μ2θbc in the redshift-space galaxy power spectrum Pgs(k,μ). Complete expressions of the galaxy power spectrum at 1-loop order are given, which contain several new terms.