English

Boundary-bulk relation in topological orders

Strongly Correlated Electrons 2017-08-23 v3 Quantum Algebra

Abstract

In this paper, we study the relation between an anomaly-free n+n+1D topological order, which are often called n+n+1D topological order in physics literature, and its nnD gapped boundary phases. We argue that the n+n+1D bulk anomaly-free topological order for a given nnD gapped boundary phase is unique. This uniqueness defines the notion of the "bulk" for a given gapped boundary phase. In this paper, we show that the n+n+1D "bulk" phase is given by the "center" of the nnD boundary phase. In other words, the geometric notion of the "bulk" corresponds precisely to the algebraic notion of the "center". We achieve this by first introducing the notion of a morphism between two (potentially anomalous) topological orders of the same dimension, then proving that the notion of the "bulk" satisfies the same universal property as that of the "center" of an algebra in mathematics, i.e. "bulk = center". The entire argument does not require us to know the precise mathematical description of a (potentially anomalous) topological order. This result leads to concrete physical predictions.

Keywords

Cite

@article{arxiv.1702.00673,
  title  = {Boundary-bulk relation in topological orders},
  author = {Liang Kong and Xiao-Gang Wen and Hao Zheng},
  journal= {arXiv preprint arXiv:1702.00673},
  year   = {2017}
}

Comments

14 pages, 12 figures, This paper gives a concise explanation of one of the main results in arXiv:1502.01690. We have tried to make it easier for physicists to read

R2 v1 2026-06-22T18:07:42.904Z