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Visualizing Atomic-Scale Negative Differential Resistance in Bilayer Graphene

We investigate the atomic-scale tunneling characteristics of bilayer graphene on silicon carbide using the scanning tunneling microscopy. The high-resolution tunneling spectroscopy reveals an unexpected negative differential resistance (NDR) at the Dirac energy, which spatially varies within the single unit cell of bilayer graphene. The origin of NDR is explained by two near-gap van Hove singularities emerging in the electronic spectrum of bilayer graphene under a transverse electric field, which are strongly localized on two sublattices in different layers. Furthermore, defects near the tunneling contact are found to strongly impact on NDR through the electron interference. Our result provides an atomic-level understanding of quantum tunneling in bilayer graphene, and constitutes a useful step towards graphene-based tunneling devices.

preprint2013arXivOpen access
Keun Su KimTae-Hwan KimAndrew L. WalterThomas SeyllerHan Woong YeomEli RotenbergAaron Bostwick
cond-mat.mes-hallcond-mat.mtrl-sci
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Keun Su KimTae-Hwan KimAndrew L. WalterThomas SeyllerHan Woong YeomEli RotenbergAaron Bostwick

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