Are H0 and σ8 tensions generic to present cosmological data?

Abstract

Yes, for a wide range of cosmological models (, non-interacting wzCDM or models with possible interactions between dark energy and dark matter, in either phantom or non-phantom regimes). In the recent past there have been many attempts to solve the tension between direct measurements of H0 and σ8 0 m from the respective low redshift observables and indirect measurements of these quantities from the cosmic microwave background (CMB). In this work we reconstruct a model independent approach that boils down to different classes of cosmological models under suitable parameters choices. We test this parameterization against the latest Planck CMB data combined with recent BAO, SNeIa datasets and the R16 direct H0 measurements, and compare among different cosmological models. Our analysis reveals that a strong positive correlation between H0 and σ8 is more or less generic, irrespective of the choice of cosmological models. We also find that present data slightly prefers a phantom equation of state for dark energy and a slight negative value for effective equation of state for dark matter (which is a direct signature of interacting models) with a relatively high value for H0 consistent with R16 and simultaneously, a consistent value for 0 m. Thus, even though the tensions cannot be fully resolved, interacting models with phantom equation of state get a slight edge over the others for currently available data. We also see that allowing interaction between dark energy and dark matter may resolve the tension between the high redshift CMB data and individual low redshift datasets, but the low redshift datasets have inconsistencies between them (e.g. between BAO and H0, SNeIa and BAO, and cluster counts and H0) that are practically independent of the cosmological model.