Lattice construction of exotic invertible topological phases

In this paper, we provide state sum path integral definitions of exotic invertible topological phases proposed in the recent paper by Hsin, Ji, and Jian [arXiv:2105.09454 [cond-mat.str-el]. The exotic phase has time-reversal (T) symmetry, and depends on a choice of the space-time structure called the Wu structure. The exotic phase cannot be captured by the classification of any bosonic or fermionic topological phases and thus gives a novel class of invertible topological phases. When the T symmetry defect admits a spin structure, our construction reduces to a sort of the decorated domain wall construction, in terms of a bosonic theory with T symmetry defects decorated with a fermionic phase that depends on a spin structure of the T symmetry defect. By utilizing our path integral, we propose a lattice construction for the exotic phase that generates the Z(8) classification of the (3+1)d invertible phase based on the Wu structure. This generalizes the Z(8) classification of the T -symmetric (1+1)d topological superconductor proposed by Fidkowski and Kitaev. On oriented space-time, this (3+1)d invertible phase with a specific choice of Wu structure reduces to a bosonic Crane-Yetter TQFT which has a topological ordered state with a semion on its boundary. Moreover, we propose a subclass of G-SPT phases based on the Wu structure labeled by a pair of cohomological data in generic space-time dimensions. This generalizes the Gu-Wen subclass of fermionic SPT phases.

Automated summary

In this paper, the authors provide state sum path integral definitions of exotic invertible topological phases proposed by Hsin, Ji, and Jian. These phases have time-reversal symmetry and depend on the choice of the Wu structure. The authors propose a lattice construction for the exotic phase based on the Wu structure, and also generalize the classification of G-SPT phases based on the Wu structure.