The Perturbative Method Fails in Non-Abelian Models

Abstract

It is shown that perturbation theory in 2D nonlinear σ-models as well gauge theories in dimension D≥ 2 produces answers that depend on boundary conditions even after the infinite volume limit has been taken. This unphysical phenomenon occurs only in the non-Abelian versions of those models, starting at O(1/β2). It is not present in the true (nonperturbatively defined) models and represents a failure of the perturbative method. It is related to a hitherto unnoticed type of low-lying excitation, dubbed super-instanton, that dominates the low-temperature (= weak coupling) regime of these models.