Hexagonal-shaped monolayer-bilayer quantum disks in graphene: A tight-binding approach

D. R. da Costa, M. Zarenia, Andrey Chaves, J. M. Pereira, Jr., G. A. Farias, and F. M. Peeters
Phys. Rev. B 94, 035415 – Published 11 July 2016
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  • INTRODUCTION
  • NUMERICAL METHOD
  • ZERO MAGNETIC FIELD
  • MAGNETIC FIELD EFFECT
  • CONCLUSIONS
  • ACKNOWLEDGMENTS
    • References

    Abstract

    Using the tight-binding approach, we investigate confined states in two different hybrid monolayer-bilayer systems: (i) a hexagonal monolayer area surrounded by bilayer graphene in the presence of a perpendicularly applied electric field and (ii) a hexagonal bilayer graphene dot surrounded by monolayer graphene. The dependence of the energy levels on dot size and external magnetic field is calculated. We find that the energy spectrum for quantum dots with zigzag edges consists of states inside the gap which range from dot-localized states, edge states, to mixed states coexisting together, whereas for dots with armchair edges, only dot-localized states are observed.

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    • Received 4 May 2016
    • Revised 30 June 2016

    DOI:https://doi.org/10.1103/PhysRevB.94.035415

    ©2016 American Physical Society

    Physics Subject Headings (PhySH)

    1. Physical Systems
    2-dimensional systemsGraphene
    1. Techniques
    Tight-binding model
    Condensed Matter, Materials & Applied Physics

    Authors & Affiliations

    D. R. da Costa1,2,*, M. Zarenia2,†, Andrey Chaves1,3,‡, J. M. Pereira, Jr.1,§, G. A. Farias1,∥, and F. M. Peeters2,1,**

    • 1Departamento de Física, Universidade Federal do Ceará, 60455-900 Fortaleza, Ceará, Brazil
    • 2Department of Physics, University of Antwerp, Groenenborgerlaan 171, B-2020 Antwerp, Belgium
    • 3Department of Chemistry, Columbia University, 3000 Broadway, New York, New York 10027, USA

    • *diego_rabelo@fisica.ufc.br
    • mohammad.zarenia@uantwerpen.be
    • andrey@fisica.ufc.br
    • §pereira@fisica.ufc.br
    • gil@fisica.ufc.br
    • **francois.peeters@uantwerpen.be

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    Issue

    Vol. 94, Iss. 3 — 15 July 2016

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