String-net construction of RCFT correlators

TL;DR

This paper develops a geometric, string-net-based framework for computing and understanding correlators in two-dimensional rational conformal field theories, extending the algebraic and topological tools available.

Contribution

It introduces a novel string-net construction for RCFT correlators, providing concise geometric expressions and a systematic approach to operator products and invariants.

Findings

Derived explicit geometric expressions for bulk and boundary fields.

Established a consistent system of correlators invariant under mapping class groups.

Introduced the concept of a universal correlator for different world sheets.

Abstract

We use string-net models to accomplish a direct, purely two-dimensional, approach to correlators of two-dimensional rational conformal field theories. We obtain concise geometric expressions for the objects describing bulk and boundary fields in terms of idempotents in the cylinder category of the underlying modular fusion category, comprising more general classes of fields than is standard in the literature. Combining these idempotents with Frobenius graphs on the world sheet yields string nets that form a consistent system of correlators, i.e. a system of invariants under appropriate mapping class groups that are compatible with factorization. Using markings, we extract operator products of field objects from specific correlators; the resulting operator products are natural algebraic expressions that make sense beyond semisimplicity. We also derive an Eckmann-Hilton relation internal to a braided category, thereby demonstrating the utility of string nets for understanding algebra in braided tensor categories. Finally we introduce the notion of a universal correlator. This systematizes the treatment of situations in which different world sheets have the same correlator and allows for the definition of a more comprehensive mapping class group.