Cluster Correlation in Mixed Models
Abstract
We evaluate the dependence of the cluster correlation length rc on the mean intercluster separation Dc, for three models with critical matter density, vanishing vacuum energy (Lambda = 0) and COBE normalized: a tilted CDM (tCDM) model (n=0.8) and two blue mixed models with two light massive neutrinos yielding Omegah = 0.26 and 0.14 (MDM1 and MDM2, respectively). All models approach the observational value of sigma8 (and, henceforth, the observed cluster abundance) and are consistent with the observed abundance of Damped Lymanalpha systems. Mixed models have a motivation in recent results of neutrino physics; they also agree with the observed value of the ratio sigma8/sigma25, yielding the spectral slope parameter Gamma, and nicely fit LCRS reconstructed spectra. We use parallel AP3M simulations, performed in a wide box (side 360/h Mpc) and with high mass and distance resolution, enabling us to build artificial samples of clusters, whose total number and mass range allow to cover the same Dc interval inspected through APM and Abell cluster clustering data. We find that the tCDM model performs substantially better than n=1 critical density CDM models. Our main finding, however, is that mixed models provide a surprisingly good fit of cluster clustering data.
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