Enhanced Andreev reflection in gapped graphene
Abstract
We theoretically demonstrate unusual features of superconducting proximity effect in gapped graphene which presents a pseudospin symmetry-broken ferromagnet with a net pseudomagnetization. We find that the presence of a band gap makes the Andreev conductance of graphene superconductor/pseudoferromagnet (S/PF) junction to behave similar to that of a graphene ferromagnet-superconductor junction. The energy gap enhance the pseudospin inverted Andreev conductance of S/PF junction to reach a limiting maximum value for , which depending on the bias voltage can be larger than the value for the corresponding junction with no energy gap. We further demonstrate a damped-oscillatory behavior for the local density of states of the PF region of S/PF junction and a long-range crossed Andreev reflection process in PF/S/PF structure with antiparallel alignment of pseudomagnetizations of PFs, which confirm that, in this respect, the gapped normal graphene behaves like a ferromagnetic graphene.
Cite
@article{arxiv.1208.2461,
title = {Enhanced Andreev reflection in gapped graphene},
author = {Leyla Majidi and Malek Zareyan},
journal= {arXiv preprint arXiv:1208.2461},
year = {2015}
}
Comments
7.2 pages, 5 figures, accepted for publication in Phys. Rev. B