Metallic proximity effect in ballistic graphene with resonant scatterers
arXiv:0910.2339 · doi:10.1088/0268-1242/25/3/034007
Abstract
We study the effect of resonant scatterers on the local density of states in a rectangular graphene setup with metallic leads. We find that the density of states in a vicinity of the Dirac point acquires a strong position dependence due to both metallic proximity effect and impurity scattering. This effect may prevent uniform gating of weakly-doped samples. We also demonstrate that even a single-atom impurity may essentially alter electronic states at low-doping on distances of the order of the sample size from the impurity.
9 pages, 2 figures