Alleviating cosmological tensions with a hybrid dark sector

Abstract

We investigate a cosmological model inspired by hybrid inflation, where two scalar fields representing dark energy (DE) and dark matter (DM) interact through a coupling that is proportional to the DE scalar field 1/φ. The strength of the coupling is governed solely by the initial condition of the scalar field, φi, which parametrises deviations from the standard model. In this model, the scalar field tracks the behaviour of DM during matter-domination until it transitions to DE while the DM component decays quicker than standard CDM during matter-domination, and is therefore different from some interacting DM-DE models which behaves like phantom dark energy. Using Planck 2018 CMB data, DESI BAO measurements and Pantheon+ supernova observations, we find that the model allows for an increase in H0 that can help reduce the Hubble tension. In addition, we find that higher values of the coupling parameter are correlated with lower values of ωm, and a mild decrease of the weak-lensing parameter S8, potentially relevant to address the S8 tension. Bayesian model comparison, however, reveals inconclusive results for most datasets, unless SH0ES data are included, in which case a moderate evidence in favour of the hybrid model is found.

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