Staggered fermions in 2+1d show modulo 8 parity/time-reversal anomalies that match between lattice and continuum when placed on tori and Klein bottles via a nontrivial symmetry map.
Anomaly indicators for time-reversal symmetric topological orders
1 Pith paper cite this work. Polarity classification is still indexing.
abstract
Some time-reversal symmetric topological orders are anomalous in that they cannot be realized in strictly two-dimensions without breaking time reversal symmetry; instead, they can only be realized on the surface of certain three-dimensional systems. We propose two quantities, which we call {\it anomaly indicators}, that can detect if a time-reversal symmetric topological order is anomalous in this sense. Both anomaly indicators are expressed in terms of the quantum dimensions, topological spins, and time-reversal properties of the anyons in the given topological order. The first indicator, $\eta_2$, applies to bosonic systems while the second indicator, $\eta_f$, applies to fermionic systems in the DIII class. We conjecture that $\eta_2$, together with a previously known indicator $\eta_1$, can detect the two known $\mathbb Z_2$ anomalies in the bosonic case, while $\eta_f$ can detect the $\mathbb Z_{16}$ anomaly in the fermionic case.
fields
hep-th 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Tori, Klein Bottles, and Modulo 8 Parity/Time-reversal Anomalies of 2+1d Staggered Fermions
Staggered fermions in 2+1d show modulo 8 parity/time-reversal anomalies that match between lattice and continuum when placed on tori and Klein bottles via a nontrivial symmetry map.