Vacuum energy and θ--vacuum

Abstract

The highly non-trivial structure of the θ--vacuum encodes many of the fundamental properties of gauge theories. In particular, the response of the vacuum to the θ--term perturbation is sensitive to the existence of confinement, chiral symmetry breaking, etc. We analyze the dependence of the vacuum energy density on theta around two special values, θ=0 and θ=π. The existence or not of singular behaviors associated to spontaneous breaking of CP symmetry in these vacua has been a controversial matter for years. We clarify this important problem by means of continuum non-perturbative techniques. The results show the absence of first order cusp singularities on the vacuum energy density at θ=0 and θ=π for some gauge theories. This smooth dependence of the energy on θ might have implications for long standing cosmological problems like the baryonic asymmetry and the cosmological constant problem.