An Extended Huckel Theory based Atomistic Model for Graphene
  Nanoelectronics

D. Kienle; E.V. Castro; Edwin C. Kan; H. Min; H. Raza; H. Raza; Hassan Raza; M. Fujita; R. Dennington II; R. Saito; S. Datta; T. Kawai

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An Extended Huckel Theory based Atomistic Model for Graphene Nanoelectronics

Authors: D. Kienle
E.V. Castro
Edwin C. Kan
H. Min
H. Raza
H. Raza
Hassan Raza
M. Fujita
R. Dennington II
R. Saito
S. Datta
T. Kawai
Publication date: 7 January 2008
Publisher: 'Springer Science and Business Media LLC'
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Abstract

An atomistic model based on the spin-restricted extended Huckel theory (EHT) is presented for simulating electronic structure and I-V characteristics of graphene devices. The model is applied to zigzag and armchair graphene nano-ribbons (GNR) with and without hydrogen passivation, as well as for bilayer graphene. Further calculations are presented for electric fields in the nano-ribbon width direction and in the bilayer direction to show electronic structure modification. Finally, the EHT Hamiltonian and NEGF (Nonequilibrium Green's function) formalism are used for a paramagnetic zigzag GNR to show 2e2/h quantum conductance.Comment: 5 pages, 8 figure

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