Field theoretic renormalization study of interaction corrections to the universal ac conductivity of graphene

Abstract

The two-loop interaction correction coefficient to the universal ac conductivity of disorder-free intrinsic graphene is computed with the help of a field theoretic renormalization study using the BPHZ prescription. Non-standard Ward identities imply that divergent subgraphs (related to Fermi velocity renormalization) contribute to the renormalized optical conductivity. Proceeding either via density-density or via current-current correlation functions, a single well-defined value is obtained: C= (19-6π)/12) = 0.01 in agreement with the result first obtained by Mishchenko and which is compatible with experimental uncertainties.