Cold New Early Dark Energy pulls the trigger on the H0 and S8 tensions: a simultaneous solution to both tensions without new ingredients

Abstract

In this work, we show that the Cold New Early Dark Energy (Cold NEDE) model in its original form can solve both the Hubble tension and the S8 tension without adding any new ingredients at the fundamental level. So far, it was assumed that the trigger field in the Cold NEDE model is completely subdominant. However, relaxing this assumption and letting the trigger field contribute a mere 0.5\% of the total energy density leads to a resolution of the S8 tension while simultaneously improving it as a solution to the H0 tension. Fitting this model to baryonic acoustic oscillations, large-scale-structure, supernovae (including a SH0ES prior), and cosmic microwave background data, we report a preferred NEDE fraction of fNEDE= 0.134+0.032-0.025 (68\% C.L.), lifting its Gaussian evidence for the first time above 5σ (up from 4 σ when the trigger contribution to dark matter is negligible). At the same time, we find the new concordance values H0 = 71.71 0.88 \,km\, sec-1\, Mpc-1 and S8 = 0.793 0.018. Excluding large-scale structure data and the SH0ES prior, both Gaussian tensions are reduced below the 2 σ level.