Issue 4, 2012

Magnetic response of conductance peak structure in junction-confined graphenenanoribbons

Abstract

We have numerically investigated the magnetic response of the conductance peak structures in the transport gap of graphene nanoribbons. It is shown that the magnetic field induces a number of new conductance peaks within the transport gap of graphene nanoribbons confined by structural junctions. In addition, the magnetic field causes a shift of the conductance peak position and broadening of the peak width. This behaviour is due to the disappearance of zero conductance dips at the junction as a result of breaking time-reversal symmetry. Such behaviour is, however, not observed in the electronic transport of graphene nanoribbons confined by potential barriers, i.e. p–n-junctions. Thus, the magnetic response of conductance peaks may be used to distinguish the origin of the conductance peak structure within the transport gap observed in the experiments.

Graphical abstract: Magnetic response of conductance peak structure in junction-confined graphene nanoribbons

Article information

Article type
Paper
Submitted
10 Aug 2011
Accepted
17 Oct 2011
First published
14 Nov 2011

Nanoscale, 2012,4, 1138-1145

Magnetic response of conductance peak structure in junction-confined graphene nanoribbons

M. Yamamoto and K. Wakabayashi, Nanoscale, 2012, 4, 1138 DOI: 10.1039/C1NR11056J

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