BOUNDARY TODA CONFORMAL FIELD THEORY FROM THE PATH INTEGRAL
Résumé
Toda Conformal Field Theories (CFTs hereafter) are generalizations of Liouville CFT where the underlying field is no longer scalar but takes values in a finite-dimensional vector space. The algebra of symmetry of such models is given by W-algebras, which contain the Virasoro algebra as a subalgebra. In contrast with Liouville CFT, and in the presence of a boundary, there may exist non-trivial automorphisms of the associated W-algebra, corresponding to different boundary conditions for the field of the theory. Based on this particular feature, we provide in this document a probabilistic construction of Toda CFTs on a Riemann surface with or without boundary. To be more specific we define different classes of models in relation with the different types of boundary conditions suggested by the non-triviality of the automorphism group of the W-algebra. To do so, we rely on a probabilistic framework based on Gaussian Free Fields and Gaussian Multiplicative Chaos, and make sense of "Cardy's doubling trick" to construct the underlying field of the theory.
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