Dark Matter-Dark Radiation Interactions and the Hubble Tension

Abstract

Models in which a subcomponent of dark matter interacts with dark radiation have been proposed as a solution to the Hubble tension. In this framework, the interacting subcomponent of dark matter is in thermal equilibrium with the dark radiation in the early universe, but decouples from it around the time of matter-radiation equality. We study this general class of models and evaluate the quality of fit to recent cosmological data on the cosmic microwave background (from Planck 2018 and ACT DR6), baryon acoustic oscillations, large-scale structure, supernovae type Ia, and Cepheid variables. We focus on three benchmark scenarios that differ in the rate at which the dark matter decouples from the dark radiation, resulting in different patterns of dark acoustic oscillations. Fitting without ACT DR6 data, we find that all three scenarios significantly reduce the Hubble tension relative to , with an exponentially fast decoupling being the most preferred. The tension is reduced to less than 2 \, σ in fits that don't include the SH0ES collaboration results as part of the data and to less than 1 \, σ when these are included. When ACT DR6 data is included, the fit is significantly worsened. We find that the largest H0 value at the 95 \% confidence region is 70.1 km/s/Mpc without the SH0ES data, leading to only a mild reduction in the tension. This increases to 72.5 km/s/Mpc, corresponding to a reduction in the tension to less than 3 \, σ, if the SH0ES results are included in the fit.

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