The Cosmological Constant and Quintessence from a Correlation Function Comoving Fine Feature in the 2dF Quasar Redshift Survey

Abstract

Detections of local maxima in the density perturbation spectrum at characteristic comoving scales L~100-200h-1Mpc have previously been claimed. Here, this cosmic standard ruler is sought in the ``10K'' release of the 2dF QSO Redshift Survey (2QZ-10K), by estimating the comoving, spatial correlation functions (r) of the three-dimensional distribution of the N=2378 quasars in the most completely observed and ``covered'' sky regions, over the three redshift ranges 0.6 < z < 1.1, 1.1 < z < 1.6 and 1.6 < z < 2.2. Because of the selection method of the survey and sparsity of the data, the analysis was done conservatively to avoid non-cosmological artefacts. (i) Avoiding 'a priori' estimates of the length scales of features, local maxima in (r) are found in all three redshift ranges. The requirement that a local maximum be present in all three redshift ranges at a fixed comoving length scale implies strong, purely geometric constraints on the local cosmological parameters. The length scale of the local maximum common to the three redshift ranges is 2L= (24417)h-1Mpc. (ii) For a standard FLRW model, the matter density and cosmological constant are constrained to = 0.250.10, =0.650.25 (68% confidence), = 0.250.15, =0.600.35 (95%), respectively, *from the 2QZ-10K alone*. Independently of the SNe Ia data, the zero cosmological constant model (=0) is rejected at the 99.7% confidence level. (iii) For an effective quintessence (wQ) model and zero curvature, wQ<-0.5 (68%), wQ<-0.35 (95%) are found, again *from the 2QZ-10K alone*.

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