Topological Defect Lines in bosonized Parafermionic CFTs
Abstract
Topological defect lines (TDLs) are extended line operators which act on the Hilbert space of two-dimensional CFTs and satisfy non-trivial fusion algebras when forming junctions. Among the most interesting fusion algebras are the so-called Tambara-Yamagami (TY) fusion categories which are realized in (bosonized) Parafermionic CFTs. The corresponding TY[]-categories have been explicitly realized for the cases , , and together with the action of the defect lines on the Hilbert space of the corresponding CFTs. For each of the cases, different methods have been used in the previous literature. In the current paper, we present a unified framework for finding the TDLs in bosonized Parafermionic CFTs. Our approach relies on combining several previously used methods and the definition of an extended matrix. We apply the method to the cases to to extract corresponding TDL fusion algebras.
Keywords
Cite
@article{arxiv.2306.16555,
title = {Topological Defect Lines in bosonized Parafermionic CFTs},
author = {Babak Haghighat and Youran Sun},
journal= {arXiv preprint arXiv:2306.16555},
year = {2025}
}
Comments
the version accepted by ATMP