cM<1 String Theory as a Constrained Topological Sigma Model
Abstract
It has been argued by Ishikawa and Kato that by making use of a specific bosonization, cM=1 string theory can be regarded as a constrained topological sigma model. We generalize their construction for any (p,q) minimal model coupled to two dimensional (2d) gravity and show that the energy--momentum tensor and the topological charge of a constrained topological sigma model can be mapped to the energy--momentum tensor and the BRST charge of cM<1 string theory at zero cosmological constant. We systematically study the physical state spectrum of this topological sigma model and recover the spectrum in the absolute cohomology of cM<1 string theory. This procedure provides us a manifestly topological representation of the continuum Liouville formulation of cM<1 string theory.
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