English

Logarithmic conformal field theory, log-modular tensor categories and modular forms

Quantum Algebra 2017-10-11 v1 High Energy Physics - Theory Category Theory Number Theory Representation Theory

Abstract

The two pillars of rational conformal field theory and rational vertex operator algebras are modularity of characters on the one hand and its interpretation of modules as objects in a modular tensor category on the other one. Overarching these pillars is the Verlinde formula. In this paper we consider the more general class of logarithmic conformal field theories and C2C_2-cofinite vertex operator algebras. We suggest that their modular pillar are trace functions with insertions corresponding to intertwiners of the projective cover of the vacuum, and that the categorical pillar are finite tensor categories C\mathcal C which are ribbon and whose double is isomorphic to the Deligne product CCopp\mathcal C\otimes \mathcal C^{opp}. Overarching these pillars is then a logarithmic variant of Verlinde's formula. Numerical data realizing this are the modular SS-matrix and modified traces of open Hopf links. The representation categories of C2C_2-cofinite and logarithmic conformal field theories that are fairly well understood are those of the Wp\mathcal W_p-triplet algebras and the symplectic fermions. We illustrate the ideas in these examples and especially make the relation between logarithmic Hopf links and modular transformations explicit.

Keywords

Cite

@article{arxiv.1605.04630,
  title  = {Logarithmic conformal field theory, log-modular tensor categories and modular forms},
  author = {Thomas Creutzig and Terry Gannon},
  journal= {arXiv preprint arXiv:1605.04630},
  year   = {2017}
}
R2 v1 2026-06-22T14:01:20.335Z