Observational Constraints on Higher Order Clustering up to $z 1

Abstract

Constraints on the validity of the hierarchical gravitational instability theory and the evolution of biasing are presented based upon measurements of higher order clustering statistics in the Deeprange Survey, a catalog of 710,000 galaxies with IAB 24 derived from a KPNO 4m CCD imaging survey of a contiguous 4 × 4 region. We compute the 3-point and 4-point angular correlation functions using a direct estimation for the former and the counts-in-cells technique for both. The skewness s3 decreases by a factor of 3-4 as galaxy magnitude increases over the range 17 I 22.5 (0.1 z 0.8). This decrease is consistent with a small increase of the bias with increasing redshift, but not by more than a factor of 2 for the highest redshifts probed. Our results are strongly inconsistent, at about the 3.5-4 σ level, with typical cosmic string models in which the initial perturbations follow a non-Gaussian distribution - such models generally predict an opposite trend in the degree of bias as a function of redshift. We also find that the scaling relation between the 3-point and 4-point correlation functions remains approximately invariant over the above magnitude range. The simplest model that is consistent with these constraints is a universe in which an initially Gaussian perturbation spectrum evolves under the influence of gravity combined with a low level of bias between the matter and the galaxies that decreases slightly from z 0.8 to the current epoch.

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