Multilogarithmic velocity renormalization in graphene

Abstract

We reexamine the effect of long-range Coulomb interactions on the quasiparticle velocity in graphene. Using a nonperturbative functional renormalization group approach with partial bosonization in the forward scattering channel and momentum transfer cutoff scheme, we calculate the quasiparticle velocity, v (k), and the quasiparticle residue, Z, with frequency-dependent polarization. One of our most striking results is that v ( k ) [ Ck (α) / k ] where the momentum- and interaction-dependent cutoff scale Ck (α) vanishes logarithmically for k → 0. Here k is measured with respect to one of the charge neutrality (Dirac) points and α=2.2 is the strength of dimensionless bare interaction. Moreover, we also demonstrate that the so-obtained multilogarithmic singularity is reconcilable with the perturbative expansion of v (k) in powers of the bare interaction.