Add to ORKGIn this talk I want to explain the operator substractions needed to regularize gauge currents in a second quantized theory. The case of space-time dimension $3+1$ is considered in detail. In presence of chiral fermions the regularization effects a modification of the local commutation relations of the currents by local Schwinger terms. In $1+1$ dimensions one gets the usual central extension (Schwinger term does not depend on background gauge field) whereas in $3+1$ dimensions one gets an anomaly linear in the background potential
The author studies two-dimensional massless chiral QCD in a gauge invariant formulation. The Faddeev...
The properties c f the axial-vector current are investigated using dimensional regularization. The ...
The current algebra generated by fermions coupled to external gauge potentials and metrics on a mani...
We compare Schwinger and complex powers methods to construct regularized fermion currents. We show t...
In the present paper we evaluate the anomaly for the abelian axial current in a non abelian chiral g...
We show that symmetries and gauge symmetries of a large class of 2-dimensional sigma models are desc...
We show that symmetries and gauge symmetries of a large class of 2-dimensional sigma models are desc...
We show that symmetries and gauge symmetries of a large class of 2-dimensional sigma models are desc...
We define a modified dimensional-regularization technique that overcomes several difficulties of the...
We derive the finite one-loop counterterm required to restore the Ward Identities broken by the regu...
We construct a non-chiral current algebra in two dimensions consistent with conformal invariance. We...
A new regularization and renormalization procedure is presented. It is particularly well suited for...
The adiabatic regularization method was originally proposed by Parker and Fulling to renormalize the...
We explore some explicit representations of a certain stable deformed algebra of quantum mechanics, ...
The author studies two-dimensional massless chiral QCD in a gauge invariant formulation. The Faddeev...
The author studies two-dimensional massless chiral QCD in a gauge invariant formulation. The Faddeev...
The properties c f the axial-vector current are investigated using dimensional regularization. The ...
The current algebra generated by fermions coupled to external gauge potentials and metrics on a mani...
We compare Schwinger and complex powers methods to construct regularized fermion currents. We show t...
In the present paper we evaluate the anomaly for the abelian axial current in a non abelian chiral g...
We show that symmetries and gauge symmetries of a large class of 2-dimensional sigma models are desc...
We show that symmetries and gauge symmetries of a large class of 2-dimensional sigma models are desc...
We show that symmetries and gauge symmetries of a large class of 2-dimensional sigma models are desc...
We define a modified dimensional-regularization technique that overcomes several difficulties of the...
We derive the finite one-loop counterterm required to restore the Ward Identities broken by the regu...
We construct a non-chiral current algebra in two dimensions consistent with conformal invariance. We...
A new regularization and renormalization procedure is presented. It is particularly well suited for...
The adiabatic regularization method was originally proposed by Parker and Fulling to renormalize the...
We explore some explicit representations of a certain stable deformed algebra of quantum mechanics, ...
The author studies two-dimensional massless chiral QCD in a gauge invariant formulation. The Faddeev...
The author studies two-dimensional massless chiral QCD in a gauge invariant formulation. The Faddeev...
The properties c f the axial-vector current are investigated using dimensional regularization. The ...
The current algebra generated by fermions coupled to external gauge potentials and metrics on a mani...