Triangular Prism Equations and Categorification
Abstract
We introduce the triangular prism equations (TPE) for fusion categories, obtained by evaluating triangular prisms in terms of tetrahedra. Using an oriented graphical calculus, we show that the geometric symmetries of the regular tetrahedron are preserved. In the spherical case, we prove that the TPE are equivalent to the pentagon equations after a suitable change of basis. These equations provide new insight for managing complexity via localization. As a consequence, and using the Fuchs-Runkel-Schweigert theorem on the second Frobenius-Schur indicator, we obtain new categorification criteria. As an application, we solve all remaining open cases to complete the classification of unitary 1-Frobenius simple integral fusion categories up to rank 8 and up to Frobenius-Perron dimension 20000.
Keywords
Cite
@article{arxiv.2203.06522,
title = {Triangular Prism Equations and Categorification},
author = {Zhengwei Liu and Sebastien Palcoux and Yunxiang Ren and Gert Vercleyen},
journal= {arXiv preprint arXiv:2203.06522},
year = {2025}
}
Comments
35 pages. Revised version. Fuchs-Runkel-Schweigert theorem replaces Wang's conjecture. Comments are welcome!