Effect of Berry Phase on Nonlinear Response of Two-dimensional Fermions

Abstract

We develop a theory of nonlinear response to an electric field of two-dimensional (2D) fermions with topologically non-trivial wave functions characterized by the Berry phase n = n π, n = 1,2,.... In particular, we find that owing to suppression of backscattering at odd n, Hall field-induced resistance oscillations, which stem from elastic electron transitions between Hall field-tilted Landau levels, are qualitatively distinct from those at even n: their amplitude decays with the electric field and their extrema are phase-shifted by a quarter cycle. The theory unifies the cases of graphene (n = 1) and graphite bilayer (n = 2) with the case of conventional 2D electron gas (n = 0) and suggests a new method to probe backscattering in topological 2D systems.