Torsion, Parity-odd Response and Anomalies in Topological States

Abstract

We study the response of a class of topological systems to electromagnetic and gravitational sources, including torsion and curvature. By using the technology of anomaly polynomials, we derive the parity-odd response of a massive Dirac fermion in d=2+1 and d=4+1, which provides a simple model for a topological insulator. We discuss the covariant anomalies of the corresponding edge states, from a Callan-Harvey anomaly-inflow, as well as a Hamiltonian spectral flow point of view. We also discuss the applicability of our results to other systems such as Weyl semi-metals. Finally, using dimensional reduction from d=4+1, we derive the effective action for a d=3+1 time-reversal invariant topological insulator in the presence of torsion and curvature, and discuss its various physical consequences.