Anomaly cascade in (2+1)D fermionic topological phases
Abstract
We develop a theory of anomalies of fermionic topological phases of matter in (2+1)D with a general fermionic symmetry group . In general, can be a non-trivial central extension of the bosonic symmetry group by fermion parity . We encounter four layers of obstructions to gauging the symmetry, which we dub the anomaly cascade: (i) An obstruction to extending the symmetry permutations on the anyons to the fermion parity gauged theory, (ii) An obstruction to extending the group structure of the symmetry permutations to the fermion parity gauged theory, where is a map that restricts symmetries of the fermion parity gauged theory to the anyon theory, (iii) An obstruction to extending the symmetry fractionalization class to the fermion parity gauged theory, and (iv) the well-known obstruction to developing a consistent theory of symmetry defects for the fermion parity gauged theory. We describe how the obstruction can be canceled by anomaly inflow from a bulk (3+1)D symmetry-protected topological state (SPT) and also its relation to the Arf invariant of spin structures on a torus. If any anomaly in the above sequence is non-trivial, the subsequent ones become relative anomalies. A number of conjectures regarding symmetry actions on super-modular categories, guided by general expectations of anomalies in physics, are also presented.
Cite
@article{arxiv.2109.10922,
title = {Anomaly cascade in (2+1)D fermionic topological phases},
author = {Daniel Bulmash and Maissam Barkeshli},
journal= {arXiv preprint arXiv:2109.10922},
year = {2022}
}
Comments
30+9 pages, 1+1 figures. v2: revised Summary of Results (Section I.A) and Section VI for clarity, Conjecture VI.4 changed to Eq. 80 and now proven, removed now-irrelevant Conjecture VI.3, fixed typos, updated acknowledgments and references. v3: updated and refined conjectures, various corrections and reorganization, added Appendix D