Scattering of Dirac electrons by randomly distributed nitrogen substitutional impurities in graphene

Khamdam Rakhimov; Andrey Chaves; Philippe Lambin

doi:10.3390/app6090256

Scattering of Dirac electrons by randomly distributed nitrogen substitutional impurities in graphene

Khamdam Rakhimov, Andrey Chaves, Philippe Lambin

Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

Résumé

The propagation of wave packets in a monolayer graphene containing a random distribution of dopant atoms has been explored. The time-dependent, two-dimensional Weyl-Dirac equation was solved numerically to propagate an initial Gaussian-type wave front and to investigate how the set of impurities influences its motion. It has been observed that the charge transport in doped graphene differs from the pristine case. In particular, nitrogen substitutional doping reduces the charge mobility in graphene due to backscattering effects.

langue originale	Anglais
Numéro d'article	256
Nombre de pages	11
journal	Applied Sciences
Volume	6
Numéro de publication	9
Les DOIs	https://doi.org/10.3390/app6090256
Etat de la publication	Publié - 13 sept. 2016

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10.3390/app6090256

http://www.mdpi.com/2076-3417/6/9/256/pdfLicense: Non spécifié

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Contient cette citation

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title = "Scattering of Dirac electrons by randomly distributed nitrogen substitutional impurities in graphene",

abstract = "The propagation of wave packets in a monolayer graphene containing a random distribution of dopant atoms has been explored. The time-dependent, two-dimensional Weyl-Dirac equation was solved numerically to propagate an initial Gaussian-type wave front and to investigate how the set of impurities influences its motion. It has been observed that the charge transport in doped graphene differs from the pristine case. In particular, nitrogen substitutional doping reduces the charge mobility in graphene due to backscattering effects.",

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AB - The propagation of wave packets in a monolayer graphene containing a random distribution of dopant atoms has been explored. The time-dependent, two-dimensional Weyl-Dirac equation was solved numerically to propagate an initial Gaussian-type wave front and to investigate how the set of impurities influences its motion. It has been observed that the charge transport in doped graphene differs from the pristine case. In particular, nitrogen substitutional doping reduces the charge mobility in graphene due to backscattering effects.

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Scattering of Dirac electrons by randomly distributed nitrogen substitutional impurities in graphene

Résumé

Accès au document

Empreinte digitale

Projets

GrapheneCore1: GrapheneCore1

FAEMCAR: Fundamental and Applied Electromagnetics of Nano-Carbons

Équipement

Plateforme Technologique Calcul Intensif

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