Conductivity of Coulomb interacting massless Dirac particles in graphene: Regularization-dependent parameters and symmetry constraints

Abstract

We compute the Coulomb correction C to the a. c. conductivity of interacting massless Dirac particles in graphene in the collisionless limit using the polarization tensor approach in a regularization independent framework. Arbitrary parameters stemming from differences between logarithmically divergent integrals are fixed on physical grounds exploiting only spatial O(2) rotational invariance of the model which amounts to transversality of the polarization tensor. Consequently C is unequivocally determined to be (19- 6π)/12 within this effective model. We compare our result with explicit regularizations and discuss the origin of others results for C found in the literature.