Anomalous response in the orbital magnetic susceptibility of 2D topological systems

Abstract

Two-dimensional compounds with non-zero Berry curvature are ideal systems to study exotic and technologically favourable thermoelectric and magnetoelectric properties. Within this class of materials, the topological trivial and non-trivial regimes had to present very different behaviours which are encoded for the orbital susceptibility and magnetization. In order to try to reveal them, we have found that it was necessary to introduce a k-dependent mass term in the relativistic formalism of these materials. Thus, while a topologically trivial insulator is predicted to have a very limited response, in the non-trivial regime we unveil a singular contribution to the orbital magnetic susceptibility which is inversely proportional to the square of the quantum magnetic flux. In this emergent scenario, besides determining the measurement conditions we also find a new route for enhancing the intrinsic orbital magnetism of topological materials widening the range of temperatures and magnetic fields without involving tiny band gaps.