Generalization of anomaly formula for time reversal symmetry in (2+1)D abelian bosonic TQFTs

Abstract

We study time-reversal symmetry in (2+1)D abelian bosonic topological phases. Time-reversal anomalies in such systems are classified by Z2 × Z2 symmetry-protected topological (SPT) phases in (3+1)D, and can be diagnosed via partition functions on manifolds such as RP4 and CP2. These partition functions are related by the anomaly formula equation* Z(RP4)\, Z(CP2) = θM, equation* where θM is the Dehn twist phase associated with the crosscap state. Meanwhile, the existence of gapped boundaries is constrained by so-called higher central charges n, which serve as computable invariants encoding obstruction data. Motivated by the known relation Z(CP2) = 1, we propose a generalization of the anomaly formula that involves both the higher central charges n and a new time-reversal invariant ηn. Introducing a distinguished subset Mn ⊂ A of anyons, we establish the relation equation* ηn · n = Σa ∈ Mn θ(a)n| Σa ∈ Mn θ(a)n |, equation* which generalizes the known anomaly formula. We analyze the algebraic structure of Mn, derive consistency relations it satisfies, and clarify its connection to the original anomaly formula.