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Nonlinear screening of charges induced in graphene by metal contacts

arXiv:0911.2027 · doi:10.1103/PhysRevB.82.115437

Abstract

To understand the band bending caused by metal contacts, we study the potential and charge density induced in graphene in response to contact with a metal strip. We find that the screening is weak by comparison with a normal metal as a consequence of the ultra-relativistic nature of the electron spectrum near the Fermi energy. The induced potential decays with the distance from the metal contact as x^{-1/2} and x^{-1} for undoped and doped graphene, respectively, breaking its spatial homogeneity. In the contact region the metal contact can give rise to the formation of a p-p', n-n', p-n junction (or with additional gating or impurity doping, even a p-n-p' junction) that contributes to the overall resistance of the graphene sample, destroying its electron-hole symmetry. Using the work functions of metal-covered graphene recently calculated by Khomyakov et al. [Phys. Rev. B 79, 195425 (2009)] we predict the boundary potential and junction type for different metal contacts.

6 pages, 3 figures; v3: revision of the text, supplementary material is added. Accepted for publication in Physical Review B