Relieving the H0 tension with a new interacting dark energy model

Abstract

We investigate an extended cosmological model motivated by the asymptotic safety of gravitational field theory, in which the matter and radiation densities and the cosmological constant receive a correction parametrized by the parameters δG and δ, leading to that both the evolutions of the matter and radiation densities and the cosmological constant slightly deviate from the standard forms. Here we explain this model as a scenario of vacuum energy interacting with matter and radiation. We consider two cases of the model: (i) CDM with one additional free parameter δG, with δ G and δ related by a low-redshift limit relation and (ii) eCDM with two additional free parameters δG and δ that are independent of each other. We use two data combinations, CMB+BAO+SN (CBS) and CMB+BAO+SN+H0 (CBSH), to constrain the models. We find that, in the case of using the CBS data, neither CDM nor eCDM can effectively alleviate the H0 tension. However, it is found that using the CBSH data the H0 tension can be greatly relieved by the models. In particular, in the case of eCDM, the H0 tension can be resolved to 0.71σ. We conclude that as an interacting dark energy model, CDM is much better than (t)CDM in the sense of both relieving the H0 tension and fitting to the current observational data.

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