Mirror QCD phase transition as the origin of the nanohertz Stochastic Gravitational-Wave Background

Abstract

Several Pulsar Timing Array (PTA) collaborations have recently provided strong evidence for a nHz Stochastic Gravitational-Wave Background (SGWB). Here we investigate the implications of a first-order phase transition occurring within the early universe's dark quantum chromodynamics (dQCD) epoch, specifically within the framework of the mirror twin Higgs dark sector model. Our analysis indicates a distinguishable SGWB signal originating from this phase transition, which can explain the measurements obtained by PTAs. Remarkably, a significant portion of the parameter space for the SGWB signal also effectively resolves the existing tensions in both the H0 and S8 measurements in Cosmology. This intriguing correlation suggests a possible common origin of these three phenomena for 0.2 < N eff < 0.5, where the mirror dark matter component constitutes about 30\% of the total dark matter abundance. Next generation CMB experiment such as CMB-S4 is able to test this parameter region.