Strings and Discrete Fluxes of QCD

Abstract

We study discrete fluxes in four dimensional SU(N) gauge theories with a mass gap by using brane compactifications which give N = 1 or N = 0 supersymmetry. We show that when such theories are compactified further on a torus, the t'Hooft magnetic flux m is related to the NS two-form modulus B by B = 2π m N. These values of B label degenerate brane vacua, giving a simple demonstration of magnetic screening. Furthermore, for these values of B one has a conventional gauge theory on a commutative torus, without having to perform any T-dualities. Because of the mass gap, a generic B does not give a four dimensional gauge theory on a non-commutative torus. The Kaluza-Klein modes which must be integrated out to give a four dimensional theory decouple only when B=2π m N. Finally we show that 2π m N behaves like a two form modulus of the QCD string. This confirms a previous conjecture based on properties of large N QCD suggesting a T-duality invariance.

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