中文

Bockstein Braiding Statistics Versus Three-Loop Braiding

强关联电子 2026-07-07 v1 量子物理

摘要

Braiding statistics of pp- and qq-dimensional topological excitations is conventionally defined in p+q+2p+q+2 spatial dimensions. We find a novel statistical process WN(X,Y)=(Y1X1)N(YX)NW_N(X,Y)=(Y^{-1}X^{-1})^N(YX)^N for two order-NN excitations in p+q+1p+q+1 dimensions, detecting the Bockstein response Aβ(B)A\smile \beta(B). This new statistics and fermionic loop statistics exhaust all loop statistics in three dimensions whose fusion rules form an Abelian group GG, classified by H5(B2G,U(1))H^5(B^2G,U(1)). Surprisingly, conventional three-loop braiding goes beyond this classification, so it must have non-Abelian fusion rules. We suggest viewing three-loop braiding as particle-loop braiding together with exotic fusion rules between loops and point-like defects. We also try to clarify the relationship between statistics and symmetry anomaly.

引用

@article{arxiv.2607.06279,
  title  = {Bockstein Braiding Statistics Versus Three-Loop Braiding},
  author = {Hanyu Xue},
  journal= {arXiv preprint arXiv:2607.06279},
  year   = {2026}
}

备注

20 pages, 2 figures