Perturbative Wilson loop in two-dimensional non-commutative Yang-Mills theory

Abstract

We perform a perturbative O(g4) Wilson loop calculation for the U(N) Yang-Mills theory defined on non-commutative one space - one time dimensions. We choose the light-cone gauge and compare the results obtained when using the Wu-Mandelstam-Leibbrandt (WML) and the Cauchy principal value (PV) prescription for the vector propagator. In the WML case the θ-dependent term is well-defined and regular in the limit θ 0, where the commutative theory is recovered; it provides a non-trivial example of a consistent calculation when non-commutativity involves the time variable. In the PV case, unexpectedly, the result differs from the WML one only by the addition of two singular terms with a trivial θ-dependence. We find this feature intriguing, when remembering that, in ordinary theories on compact manifolds, the difference between the two cases can be traced back to the contribution of topological excitations.

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