An Operator-Algebraic Framework for Anyons and Defects in Quantum Spin Systems
Abstract
In this dissertation, we detail an operator algebraic approach to studying topological order in the infinite volume setting. We give a thorough and self-contained review of the DHR-style approach on quantum spin systems, which builds a category of anyon sectors starting from microscopic lattice spin systems. In general, this category has the structure of a braided -tensor category. We will verify in full detail that is the expected category in Kitaev's Quantum Double model, a paradigmatic model for studying topological order on the lattice. We will then extend the DHR-style analysis to systems in the presence of a global on-site symmetry, and introduce a category of symmetry defects, , and show that it has the structure of a -crossed braided -tensor category.
Cite
@article{arxiv.2601.05515,
title = {An Operator-Algebraic Framework for Anyons and Defects in Quantum Spin Systems},
author = {Siddharth Vadnerkar},
journal= {arXiv preprint arXiv:2601.05515},
year = {2026}
}
Comments
PhD thesis, 305 pages, many figures