Dependence of quantum-Hall conductance on the edge-state equilibration position in a bipolar graphene sheet
arXiv:0912.2791 · doi:10.1103/PhysRevB.81.033301
Abstract
By using four-terminal configurations, we investigated the dependence of longitudinal and diagonal resistances of a graphene p-n interface on the quantum-Hall edge-state equilibration position. The resistance of a p-n device in our four-terminal scheme is asymmetric with respect to the zero point where the filling factor ($ν$) of the entire graphene vanishes. This resistance asymmetry is caused by the chiral-direction-dependent change of the equilibration position and leads to a deeper insight into the equilibration process of the quantum-Hall edge states in a bipolar graphene system.
5 pages, 4 figures, will be published in PRB