2021
DOI: 10.21203/rs.3.rs-371781/v1
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Investigation of quantum transport and local density of states in a graphene strip connected to a square lattice

Abstract: We theoretically express quantum transport at Dirac points via graphene quantum billiard as a non-magnetic material to connect metallic leads. Our results indicate that the quantum billiard of graphene is similar to a resonant tunnelling device. The centerpiece size and the Fermi energy of the graphene quantum billiard play an important role in the resonant tunnelling. In graphene, change of carrier density can affect plasmon polaritons. At the Dirac point, the conductivity of graphene depends on the geometry,… Show more

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