Large scale structure formation in mixed dark matter models with a cosmological constant
R. Valdarnini 1,
T. Kahniashvili 2 and
B. Novosyadlyj 3
Received 22 December 1997 / Accepted 4 April 1998
We study linear power spectra and formation of large scale structures in flat cosmological models with and cold plus hot dark matter components. We refer to these models as mixed models (MLM). The hot component consists of massive neutrinos with cosmological density and number of neutrino species as a free parameter. The linearized Einstein-Boltzmann equations for the evolution of the metric and density perturbations are integrated for a set of values of the cosmological parameters. We study MLM models with present matter density in the range , dimensionless Hubble constant and the hot dark matter content with a ratio within the limits . For all the considered models we assume a scale-invariant primeval spectrum.
The density weighted final linear power spectra are normalized to the four year COBE data and have been used to constrain the parameter space by a comparison of linear predictions with the current observational data on large scales. The consistency of MLM predictions with the observable data set is best obtained for models with one species of massive neutrinos and . Of the considered linear tests the strongest constraints on that we obtain arise by comparing the cluster X-ray temperature function with that observed at the present epoch. Consistency with the estimated cluster abundance can be achieved for COBE normalized MLM models with and for . If then . These constraints are at level and standard MDM models are clearly ruled out.
We note that the range of allowed values for , that we obtain for MLM models from linear analysis, is also approximately the same range that is needed in order to consistently satisfy a variety of independent observational constraints.
Key words: cosmology: theory cosmology: dark matter cosmology: large-scale structure of Universe
Send offprint requests to: Riccardo Valdarnini
© European Southern Observatory (ESO) 1998
Online publication: July 7, 1998