Melting Instantons, Domain Walls, and Large N

Abstract

Monte Carlo studies of CPN-1 sigma models have shown that the structure of topological charge in these models undergoes a sharp transition at N=Nc≈ 4. For N<Nc topological charge is dominated by small instantons, while for N>Nc it is dominated by extended, thin, 1-dimensionally coherent membranes of topological charge, which can be interpreted as domain walls between discrete quasi-stable vacua. These vacua differ by a unit of background electric flux. The transition can be identified as the delocalization of topological charge, or "instanton melting," a phenomenon first suggested by Witten to resolve the conflict between instantons and large N behavior. Implications for QCD are discussed.