W-Gauge Structures and their Anomalies:An Algebraic Approach

Abstract

Starting from flat two-dimensional gauge potentials we propose the notion of W-gauge structure in terms of a nilpotent BRS differential algebra. The decomposition of the underlying Lie algebra with respect to an SL(2) subalgebra is crucial for the discussion conformal covariance, in particular the appearance of a projective connection. Different SL(2) embeddings lead to various W-gauge structures. We present a general soldering procedure which allows to express zero curvature conditions for the W-currents in terms of conformally covariant differential operators acting on the W gauge fields and to obtain, at the same time, the complete nilpotent BRS differential algebra generated by W-currents, gauge fields and the ghost fields corresponding to W-diffeomorphisms. As illustrations we treat the cases of SL(2) itself and to the two different SL(2) embeddings in SL(3), viz. the W3(1)- and W3(2)-gauge structures, in some detail. In these cases we determine algebraically W-anomalies as solutions of the consistency conditions and discuss their Chern-Simons origin.