Saved in:
Bibliographic Details
Main Author: Coquereaux, Robert
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.02926
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910590084055040
author Coquereaux, Robert
author_facet Coquereaux, Robert
contents After recalling the notion of higher roots (or hyper-roots) associated with "quantum modules" of type $(G, k)$, for $G$ a semi-simple Lie group and $k$ a positive integer, following the definition given by A. Ocneanu in 2000, we study the theta series of their lattices. Here we only consider the higher roots associated with quantum modules (aka module-categories over the fusion category defined by the pair $(G,k)$) that are also "quantum subgroups". For $G=SU{2}$ the notion of higher roots coincides with the usual notion of roots for ADE Dynkin diagrams and the self-fusion restriction (the property of being a quantum subgroup) selects the diagrams of type $A_{r}$, $D_{r}$ with $r$ even, $E_6$ and $E_8$; their theta series are well known. In this paper we take $G=SU{3}$, where the same restriction selects the modules ${\mathcal A}_k$, ${\mathcal D}_k$ with $mod(k,3)=0$, and the three exceptional cases ${\mathcal E}_5$, ${\mathcal E}_9$ and ${\mathcal E}_{21}$. The theta series for their associated lattices are expressed in terms of modular forms twisted by appropriate Dirichlet characters.
format Preprint
id arxiv_https___arxiv_org_abs_2409_02926
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle SU(3) higher roots and their lattices
Coquereaux, Robert
Quantum Algebra
18D10, 22E46, 17B67, 17B37, 52C07, 81R10, 81T40
After recalling the notion of higher roots (or hyper-roots) associated with "quantum modules" of type $(G, k)$, for $G$ a semi-simple Lie group and $k$ a positive integer, following the definition given by A. Ocneanu in 2000, we study the theta series of their lattices. Here we only consider the higher roots associated with quantum modules (aka module-categories over the fusion category defined by the pair $(G,k)$) that are also "quantum subgroups". For $G=SU{2}$ the notion of higher roots coincides with the usual notion of roots for ADE Dynkin diagrams and the self-fusion restriction (the property of being a quantum subgroup) selects the diagrams of type $A_{r}$, $D_{r}$ with $r$ even, $E_6$ and $E_8$; their theta series are well known. In this paper we take $G=SU{3}$, where the same restriction selects the modules ${\mathcal A}_k$, ${\mathcal D}_k$ with $mod(k,3)=0$, and the three exceptional cases ${\mathcal E}_5$, ${\mathcal E}_9$ and ${\mathcal E}_{21}$. The theta series for their associated lattices are expressed in terms of modular forms twisted by appropriate Dirichlet characters.
title SU(3) higher roots and their lattices
topic Quantum Algebra
18D10, 22E46, 17B67, 17B37, 52C07, 81R10, 81T40
url https://arxiv.org/abs/2409.02926