What Becomes of Semilocal non-Abelian Strings in N=1 Supersymmetric QCD

Abstract

We study non-Abelian vortex strings in N=2 supersymmetric QCD with the gauge group U(N) deformed by the mass μ of the adjoint matter. This deformation breaks N=2 supersymmetry down to N=1 and in the limit of large μ the theory flows to N=1 QCD. Non-Abelian strings in addition to translational zero modes have orientation moduli. In the N=2 limit of small μ the dynamics of orientational moduli is described by the two dimensional CP(N-1) model for QCD with Nf=N flavors of quark hypermultiplets. For the case of Nf>N the non-Abelian string becomes semilocal developing additional size moduli which modify the effective two dimensional σ-model on the string making its target space non-compact. In this paper we consider the μ-deformed theory with Nf>N eventually making μ large. We show that size moduli develop a potential that forces the string transverse size to shrink. Eventually in the large μ limit size moduli decouple and the effective theory on the string reduces to the CP(N-1) model. We also comment on physics of confined monopoles.