Dirac cones for a mean-field model of graphene

Abstract

In this article, we show that, in the dissociation regime and under a non-degeneracy assumption, the reduced Hartree-Fock theory of graphene presents Dirac points at the vertices of the first Brillouin zone and that the Fermi level is exactly at the coincidence point of the cones. For this purpose, we first consider a general Schr\"odinger operator H=-+VL acting on L2(R2) with a potential VL which is assumed to be periodic with respect to some lattice with length scale L. Under some assumptions which covers periodic reduced Hartree-Fock theory, we show that, in the limit L∞, the low-lying spectral bands of HL are given to leading order by the tight-binding model. For the hexagonal lattice of graphene, the latter presents singularities at the vertices of the Brillouin zone. In addition, the shape of the Bloch bands is so that the Fermi level is exactly on the cones.

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