Mixed Models with n>1 and Large Scale Structure constraints

Abstract

Recent data on CBR anisotropies show a Doppler peak higher than expected in CDM cosmological models, if the spectral index n=1. However, CDM and LCDM models with n>1 can hardly be consistent with LSS data. Mixed models, instead, whose transfer function is naturally steeper because of free--streaming in the hot component, may become consistent with data if n>1, when Omegah is large. This is confirmed by our detailed analysis, extended both to models with a hot component whose momentum space distribution had a thermal origin (like massive neutrinos), and to models with a non--cold component arising from heavier particle decay. In this work we systematically search models which fulfill all constraints which can be implemented at the linear level. We find that a stringent linear constraint arises from fitting the extra-power parameter Gamma. Other significant constraints arise comparing the expected abundances of galaxy clusters and high-z systems with observational data. Keeping to models with Gamma ≥ 0.13, a suitable part of the space parameter still allows up to 30% of hot component (it is worth outlining that our stringent criteria allow only models with 0.10 Omegah 0.16, if n ≤ 1). We also outline that models with such large non--cold component would ease the solution of the so--called baryon catastrophe in galaxy clusters.

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