Velocity Bias from the Small Scale Clustering of SDSS-III BOSS Galaxies

TL;DR

This study measures and models the small-scale clustering of SDSS-III BOSS galaxies, revealing that galaxy velocities differ from dark matter within haloes, indicating velocity bias with implications for galaxy formation and cosmology.

Contribution

It provides the first detailed measurement and modeling of galaxy velocity bias using high-resolution simulations and clustering data, highlighting non-zero velocities of central and satellite galaxies.

Findings

Central galaxies are not at rest but move with a 1D velocity dispersion of about 0.22 times that of dark matter.

Satellite galaxies move more slowly than dark matter, at about 0.86 times the dark matter velocity.

Galaxy velocity bias affects small-scale clustering and has implications for cosmological measurements.

Abstract

We present the measurements and modelling of the projected and redshift-space clustering of CMASS galaxies in the Sloan Digital Sky Survey-III Baryon Oscillation Spectroscopic Survey Data Release 11. For a volume-limited luminous red galaxy sample in the redshift range of $0.48<z<0.55$, we perform halo occupation distribution modelling of the small- and intermediate-scale ($0.1$--$60h^{-1}{\rm {Mpc}}$) projected and redshift-space two-point correlation functions, with an accurate model built on high resolution $N$-body simulations. To interpret the measured redshift-space distortions, the distribution of galaxy velocities must differ from that of the dark matter inside haloes of $\sim 10^{13}$--$10^{14}h^{-1}{\rm M_{\odot}}$, i.e. the data require the existence of galaxy velocity bias. Most notably, central galaxies on average are not at rest with respect to the core of their host haloes (defined by the inner 25% of particles around the halo potential minimum), but rather move around it with a 1D velocity dispersion of $0.22^{+0.03}_{-0.04}$ times that of the dark matter, implying a spatial offset from the centre at the level of $\lesssim$1% of the halo virial radius. The luminous satellite galaxies move more slowly than the dark matter, with velocities $0.86^{+0.08}_{-0.03}$ times those of the dark matter, which suggests that the velocity and spatial distributions of these satellites cannot both be unbiased. The constraints mainly arise from the Fingers-of-God effect at nonlinear scales and the smoothing to the Kaiser effect in the translinear regime; the robustness of the results is demonstrated by a variety of tests. In addition, no clear evidence is found for a strong luminosity dependence of the velocity bias. We discuss the implications of the existence of galaxy velocity bias for investigations of galaxy formation and cosmology.