Non-perturbative renormalization group calculation of the quasi-particle velocity and the dielectric function of graphene

Abstract

Using a non-perturbative functional renormalization group approach we calculate the renormalized quasi-particle velocity v (k) and the static dielectric function ε ( k ) of suspended graphene as functions of an external momentum k. Our numerical result for v (k ) can be fitted by v ( k ) / vF = A + B ( 0 / k ), where vF is the bare Fermi velocity, 0 is an ultraviolet cutoff, and A = 1.37, B =0.51 for the physically relevant value (e2/vF =2.2) of the coupling constant. In contrast to calculations based on the static random-phase approximation, we find that ε (k ) approaches unity for k → 0. Our result for v (k ) agrees very well with a recent measurement by Elias et al. [Nat. Phys. 7, 701 (2011)].