Classification of (2+1)D invertible fermionic topological phases with
symmetry
- URL: http://arxiv.org/abs/2109.11039v5
- Date: Mon, 30 May 2022 17:40:08 GMT
- Title: Classification of (2+1)D invertible fermionic topological phases with
symmetry
- Authors: Maissam Barkeshli, Yu-An Chen, Po-Shen Hsin, and Naren Manjunath
- Abstract summary: We classify invertible fermionic topological phases of interacting fermions with symmetry in two spatial dimensions for general fermionic symmetry groups $G_f$.
Our results also generalize and provide a different approach to the recent classification of fermionic symmetry-protected topological phases by Wang and Gu.
- Score: 2.74065703122014
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We provide a classification of invertible topological phases of interacting
fermions with symmetry in two spatial dimensions for general fermionic symmetry
groups $G_f$ and general values of the chiral central charge $c_-$. Here $G_f$
is a central extension of a bosonic symmetry group $G_b$ by fermion parity,
$(-1)^F$, specified by a second cohomology class $[\omega_2] \in
\mathcal{H}^2(G_b, \mathbb{Z}_2)$. Our approach proceeds by gauging fermion
parity and classifying the resulting $G_b$ symmetry-enriched topological orders
while keeping track of certain additional data and constraints. We perform this
analysis through two perspectives, using $G$-crossed braided tensor categories
and Spin$(2c_-)_1$ Chern-Simons theory coupled to a background $G$ gauge field.
These results give a way to characterize and classify invertible fermionic
topological phases in terms of a concrete set of data and consistency
equations, which is more physically transparent and computationally simpler
than the more abstract methods using cobordism theory and spectral sequences.
Our results also generalize and provide a different approach to the recent
classification of fermionic symmetry-protected topological phases by Wang and
Gu, which have chiral central charge $c_- = 0$. We show how the 10-fold way
classification of topological insulators and superconductors fits into our
scheme, along with general non-perturbative constraints due to certain choices
of $c_-$ and $G_f$. Mathematically, our results also suggest an explicit
general parameterization of deformation classes of (2+1)D invertible
topological quantum field theories with $G_f$ symmetry.
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