Interaction corrections to the minimal conductivity of graphene via dimensional regularization

Abstract

We compute the two-loop interaction correction to the minimal conductivity of disorder-free intrinsic graphene with the help of dimensional regularization. The calculation is done in two different ways: via density-density and via current-current correlation functions. Upon properly renormalizing the perturbation theory, in both cases, we find that: σ = σ0\,( 1 + \,(19-6π)/12) ≈ σ0 \,(1 + 0.01\, ), where = e2 / (4 π v) is the renormalized fine structure constant and σ0 = e2 / (4 ). Our results are consistent with experimental uncertainties and resolve a theoretical dispute.