The VIMOS Public Extragalactic Redshift Survey (VIPERS). Hierarchical scaling and biasing

Abstract

We investigate the higher-order correlation properties of the VIMOS Public Extragalactic Redshift Survey (VIPERS) to test the hierarchical scaling hypothesis at z~1 and the dependence on galaxy luminosity, stellar mass, and redshift. We also aim to assess deviations from the linearity of galaxy bias independently from a previously performed analysis of our survey (Di Porto et al. 2014). We have measured the count probability distribution function in cells of radii 3 < R < 10 Mpc/h, deriving σ8g, the volume-averaged two-,three-,and four-point correlation functions and the normalized skewness S3g and kurtosis S4g for volume-limited subsamples covering the ranges -19.5 MB(z=1.1)-5log(h) -21.0, 9.0 < log(M*/M h-2) 11.0, 0.5 z < 1.1. We have thus performed the first measurement of high-order correlations at z~1 in a spectroscopic redshift survey. Our main results are the following. 1) The hierarchical scaling holds throughout the whole range of scale and z. 2) We do not find a significant dependence of S3g on luminosity (below z=0.9 S3g decreases with luminosity but only at 1σ-level). 3) We do not detect a significant dependence of S3g and S4g on scale, except beyond z~0.9, where the dependence can be explained as a consequence of sample variance. 4) We do not detect an evolution of S3g and S4g with z. 5) The linear bias factor b=σ8g/σ8m increases with z, in agreement with previous results. 6) We quantify deviations from the linear bias by means of the Taylor expansion parameter b2. Our results are compatible with a null non-linear bias term, but taking into account other available data we argue that there is evidence for a small non-linear bias term.