Vacuum angle theta in a strongly interacting hidden sector and its effect

Abstract

Introducing a vacuum angle θh in a strongly interacting hidden sector like QCD, we study how θh affects physical quantities in a scale invariant extension of the standard model with that hidden sector. In this model the dynamical chiral symmetry breaking occurs in the hidden sector and generates a scale q q which triggers electroweak symmetry breaking. We find that the expression for a vacuum expectation value of the Higgs field depends on θh, while the condition which determines the Higgs particle mass does not. This model contains the hidden-sector pions π0 and π which are candidates for cold dark matter, and we find the mass difference between the hidden-sector π0 and π will not be negligible for θh ≈ π.