Disorder induced helical-edge transport near =0 of monolayer graphene

Abstract

The complex nature of filling factor =0 of monolayer graphene is studied in magnetotransport experiments. As function of perpendicular magnetic field a metal-insulator transition is observed, which is attributed to disorder-induced Landau level broadening in the canted antiferromagnetic phase. In the metallic regime a separation of the zeroth Landau level appears and signs of the quantum spin Hall effect are seen near =0. In addition to local transport, nonlocal transport experiments show results being consistent with helical edge transport.