Edge properties of the chiral d-wave superconducting state in doped graphene

Abstract

We investigate the effect of edges on the intrinsic electron-electron interaction driven d-wave superconducting state in graphene doped close to the van Hove singularity. While the bulk is in a chiral dx2-y2+idxy state, the order parameter at any edge is enhanced and has dx2-y2-symmetry, with a decay length strongly increasing with weakening superconductivity. No graphene edge is pair breaking for the dx2-y2 state and we never find any localized zero-energy edge states. We find two chiral edge modes which carry a spontaneous, but not quantized, quasiparticle current related to the zero-energy momentum. Moreover, for realistic values of the Rashba spin-orbit coupling, a Majorana fermion appears at the edge when tuning a Zeeman field.