Quantized conductance of a suspended graphene nanoconstriction

Ivan Vera Marun, Nikolaos Tombros, Alina Veligura, Juliane Junesch, Marcos H D Guimar??es, Ivan J Vera-Marun, Harry T Jonkman, Bart J van Wees

    Research output: Contribution to journalArticlepeer-review

    Abstract

    One of the most promising characteristics of graphene is the ability of charge carriers to travel through it ballistically over hundreds of nanometres. Recent developments in the preparation of high mobility graphene should make it possible to study the effects of quantum confinement in graphene nanostructures in the ballistic regime. Of particular interest are those effects that arise from edge states, such as spin polarization at zigzag edges of graphene nanoribbons and the use of graphene???s valley-degeneracy for ???valleytronics???. Here we present the observation of quantized conductance at integer multiples of 2e2/h at zero magnetic field in a high mobility suspended graphene ballistic nanoconstriction. This quantization evolves into the typical quantum Hall effect for graphene at magnetic fields above 60 mT. Voltage bias spectroscopy reveals an energy spacing of 8 meV between the first two subbands. A pronounced feature at 0.6??2e2/h present at a magnetic field as low as {\textasciitilde}0.2 T resembles the ???0.7 anomaly??? observed in quantum point contacts in a GaAs???AlGaAs two-dimensional electron gas, possibly caused by electron???electron interactions.
    Original languageEnglish
    Pages (from-to)697-700
    Number of pages4
    JournalNature Physics
    Volume7
    Issue number9
    DOIs
    Publication statusPublished - Sept 2011

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