Screening of Coulomb Impurities in Graphene

Abstract

We calculate exactly the vacuum polarization charge density in the field of a subcritical Coulomb impurity, Z|e|/r, in graphene. Our analysis is based on the exact electron Green's function, obtained by using the operator method, and leads to results that are exact in the parameter Zα, where α is the "fine structure constant" of graphene. Taking into account also electron-electron interactions in the Hartree approximation, we solve the problem self-consistently in the subcritical regime, where the impurity has an effective charge Zeff, determined by the localized induced charge. We find that an impurity with bare charge Z=1 remains subcritical, Zeff α < 1/2, for any α, while impurities with Z=2,3 and higher can become supercritical at certain values of α.