Alleviating Cosmological Tensions with the Hadrosymmetric Twin Higgs

Abstract

The Hadrosymmetric Twin Higgs (HTH) model provides a natural solution to the little hierarchy problem by incorporating all three generations of quarks in a twin sector. Unlike other Twin Higgs scenarios, such as the Mirror Twin Higgs (MTH), the HTH framework avoids introducing additional light states or radiation and thus remains consistent with stringent bounds on the effective number of relativistic species, ΔN eff. Its particle content and interactions also make it difficult to probe at colliders, highlighting the importance of cosmological tests. In this work, we study the cosmological implications of the HTH model, focusing on the persistent tensions in the Hubble constant (H0) and the matter clustering amplitude (σ8). Implementing the HTH sector in a Boltzmann code and confronting it with cosmic microwave background (CMB) data and local H0 measurements, we find that HTH scenario partially reduces the Hubble tension from more than 4σ to about 2.5σ, while also alleviating the σ8 discrepancy. These results demonstrate that the HTH framework not only addresses naturalness in particle physics but also offers a viable route to mitigating current cosmological tensions, thereby strengthening the link between fundamental theory and precision cosmology.