English

Anomaly cascade in (2+1)D fermionic topological phases

Strongly Correlated Electrons 2022-04-21 v3 High Energy Physics - Theory Mathematical Physics math.MP Quantum Algebra

Abstract

We develop a theory of anomalies of fermionic topological phases of matter in (2+1)D with a general fermionic symmetry group GfG_f. In general, GfG_f can be a non-trivial central extension of the bosonic symmetry group GbG_b by fermion parity (1)F(-1)^F. We encounter four layers of obstructions to gauging the GfG_f symmetry, which we dub the anomaly cascade: (i) An H1(Gb,ZT)\mathcal{H}^1(G_b,\mathbb{Z}_{\bf T}) obstruction to extending the symmetry permutations on the anyons to the fermion parity gauged theory, (ii) An H2(Gb,kerr)\mathcal{H}^2(G_b, \ker r) obstruction to extending the GbG_b group structure of the symmetry permutations to the fermion parity gauged theory, where rr is a map that restricts symmetries of the fermion parity gauged theory to the anyon theory, (iii) An H3(Gb,Z2)\mathcal{H}^3(G_b, \mathbb{Z}_2) obstruction to extending the symmetry fractionalization class to the fermion parity gauged theory, and (iv) the well-known H4(Gb,U(1))\mathcal{H}^4(G_b, U(1)) obstruction to developing a consistent theory of GbG_b symmetry defects for the fermion parity gauged theory. We describe how the H2\mathcal{H}^2 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.

Keywords

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

R2 v1 2026-06-24T06:13:45.206Z