Galaxy Bias in Quintessence Cosmological Models

Abstract

We derive the evolution of the linear bias factor, b(z), in cosmological models driven by an exotic fluid with an equation of state: px=wx, where -1 w<0 (quintessence). Our aim is to put constrains on different cosmological and biasing models by combining the recent observational clustering results of optical ( 2dF) galaxies (Hawkings et al.) with those predicted by the models. We find that our bias model when fitted to the 2dF clustering results predicts different bias evolution for different values of w. The models that provide the weak biasing (b 1.1) of optical galaxies found in many recent observational studies are flat, m=0.3 with w -0.9. These models however, predict a weak redshift evolution of b(z), not corroborated by N-body simulations.

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