Duality in conformal field theories

Abstract

In chapter 8, we characterized a conformal field theory by its symmetry algebra, namely the Virasoro algebra or, more generally, the chiral algebra. We have seen that in the minimal models of type ( p, p′ ), with central charge c The operator formalism of conformal field theories produces some simple diagrammatics to describe physical states and their correlation functions. The building blocks for such diagrams are two-dimensional orientable Riemann surfaces, with topology classified by the genus or number of handles and by the number of punctures or local operator insertions. Having the diagrams at hand, one is immediately compelled to analyze the behavior of states and correlators under “dual transformations”, symmetry operations which eventually call for the interpretation of the Riemann surface as the world-sheet of an extended object, the quantum string. Under a duality transformation, for instance, a four-particle correlator on the sphere is mapped to another four-particle correlator. If we think of the correlator as an amplitude for the scattering of two particles into two particles, then through a duality transformation we may map the amplitude in the s channel to that in the t or in the u channels ( s, t and u are the Mandelstam variables; see figure 9.1).