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Upstream modes and antidots poison graphene quantum Hall effect

N. Moreau, B. Brun, S. Somanchi, K. Watanabe, T. Taniguchi, C. Stampfer and B. Hackens ()
Additional contact information
N. Moreau: Université catholique de Louvain (UCLouvain)
B. Brun: Université catholique de Louvain (UCLouvain)
S. Somanchi: JARA-FIT and 2nd Institute of Physics—RWTH Aachen
K. Watanabe: National Institute for Materials Science
T. Taniguchi: National Institute for Materials Science
C. Stampfer: JARA-FIT and 2nd Institute of Physics—RWTH Aachen
B. Hackens: Université catholique de Louvain (UCLouvain)

Nature Communications, 2021, vol. 12, issue 1, 1-7

Abstract: Abstract The quantum Hall effect is the seminal example of topological protection, as charge carriers are transmitted through one-dimensional edge channels where backscattering is prohibited. Graphene has made its marks as an exceptional platform to reveal new facets of this remarkable property. However, in conventional Hall bar geometries, topological protection of graphene edge channels is found regrettably less robust than in high mobility semi-conductors. Here, we explore graphene quantum Hall regime at the local scale, using a scanning gate microscope. We reveal the detrimental influence of antidots along the graphene edges, mediating backscattering towards upstream edge channels, hence triggering topological breakdown. Combined with simulations, our experimental results provide further insights into graphene quantum Hall channels vulnerability. In turn, this may ease future developments towards precise manipulation of topologically protected edge channels hosted in various types of two-dimensional crystals.

Date: 2021
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24481-2

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DOI: 10.1038/s41467-021-24481-2

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