Gravitational particle production, the cosmological tensions and fast radio bursts

Abstract

In [26] it had been found that gravitational particle production (to be more specific, gravitational vacuum polarization) results in an effective increase in the directly measured value of the Hubble constant H0 while it does not affect the value of the Hubble constant derived from energy densities H0. It had also been pointed out that this may explain why the Hubble constant H0 determined from direct measurements (such as in SN Ia measurements) and the Hubble constant determined from indirect measurements (such as in CMB calculations in the framework of ) are different. In the present study, first I correct a misidentification in Erdem-Universe, namely, H0=(H0H0)H0 (rather than H0) is the value of the Hubble constant measured in CMB and BAO measurements. Then I extend the analysis to the σ8 tension, and to determination of the Hubble constant through observations of fast radio bursts. It is observed that inclusion of the effect of gravitational vacuum polarization essentially does not neither mitigate nor exacerbate the σ8 tension (while it mitigates or relieves the Hubble tension). This result is significant in the light of the studies in literature that question existence of a true σ8 tension. Moreover, the present framework predicts that the value of the Hubble constant measured in fast radio bursts is H0 as in CMB and BAO measurements. This may be checked with observations in future after more precise and conclusive measurements of H0, H0, H0.