Dark Sector to Restore Cosmological Concordance

Abstract

We develop a new phenomenological model that addresses current tensions between observations of the early and late Universe. Our scenario features: (i) a decaying dark energy fluid (DDE), which undergoes a transition at z 5,000, to raise today's value of the Hubble parameter -- addressing the H0 tension, and (ii) an ultra-light axion (ULA), which starts oscillating at z 104, to suppress the matter power spectrum -- addressing the S8 tension. Our Markov Chain Monte Carlo analyses show that such a Dark Sector model fits a combination of Cosmic Microwave Background (CMB), Baryon Acoustic Oscillations, and Large Scale Structure (LSS) data slightly better than the model, while importantly reducing both the H0 and S8 tensions with late universe probes ( 3σ). Combined with measurements from cosmic shear surveys, we find that the discrepancy on S8 is reduced to the 1.4σ level, and the value of H0 is further raised. Adding local supernovae measurements, we find that the H0 and S8 tensions are reduced to the 1.4σ and 1.2σ level respectively, with a significant improvement 2 -18 compared to the model. With this complete dataset, the DDE and ULA are detected at 4σ and 2σ, respectively. We discuss a possible particle physics realization of this model, with a dark confining gauge sector and its associated axion, although embedding the full details within microphysics remains an urgent open question. Our scenario will be decisively probed with future CMB and LSS surveys.