Fractionally charged Wilson loops as a probe of θ-dependence in CPN-1 sigma models: Instantons vs. large N

Abstract

The behavior of Wilson loops with fractional charge is used to study the θ-dependence of the free energy density ε(θ) for the CP1, CP5, and CP9 sigma models in two spacetime dimensions. The function ε(θ) is extracted from the area law for a Wilson loop of charge q=θ/2π. For CP1, ε(θ) is smooth in the region θ≈π and well-described by a dilute instanton gas throughout the range 0<θ<2π. For CP5 and CP9 the energy exhibits a clear cusp and evidence for discrete, degenerate vacua at θ = π, as expected from large N arguments. For CP9 the θ-dependence is in good quantitative agreement with the leading order large N prediction ε(θ)=1/2tθ2 throughout the range 0<θ<π.