The Cluster Mass Function and the σ8-tension

Abstract

We use a large set of halo mass function (HMF) models in order to investigate their ability to represent the observational Cluster Mass Function (CMF), derived from the GalWCat19 cluster catalogue, within the cosmology. We apply the 2 minimization procedure to constrain the free parameters of the models, namely m and σ8. We find that all HMF models fit well the observational CMF, while the Bocquet et. al. model provides the best fit, with the lowest 2 value. Utilizing the Index of Inconsistency (IOI) measure, we further test the possible inconsistency of the models with respect to a variety of Planck 2018 cosmologies, resulting from the combination of different probes (CMB - BAO or CMB - DES). We find that the HMF models that fitted well the observed CMF provide consistent cosmological parameters with those of the Planck CMB analysis, except for the Press \& Schechter, Yahagi et. al., and Despali et. al. models which return large IOI values. The inverse min2-weighted average values of m and σ8, over all 23 theoretical HMF models are: m,0=0.313 0.022 and σ8=0.7980.040, which are clearly consistent with the results of Planck-CMB, providing S8=σ8(m/0.3)1/2= 0.815 0.05. Within the paradigm and independently of the selected HMF model in the analysis, we find that the current CMF shows no σ8-tension with the corresponding Planck-CMB results.

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