Time dependent behavior of a localized electron at a heterojunction boundary of graphene

Min Seok Jang; Hyungjun Kim; Harry A. Atwater; William A. Goddard

doi:10.1063/1.3454909

Time dependent behavior of a localized electron at a heterojunction boundary of graphene

Min Seok Jang
, Hyungjun Kim
, Harry A. Atwater
, William A. Goddard

California Institute of Technology Division of Engineering and Applied Science
Beckman Institute
Korea Advanced Institute of Science and Technology

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

Résumé

We develop a finite-difference time-domain (FDTD) method for simulating the dynamics of graphene electrons, denoted GraFDTD. We then use GraFDTD to study the temporal behavior of a single localized electron wave packet, showing that it exhibits optical-like dynamics including the Goos-Hänchen effect [F. Goos and H. Hänchen, Ann. Phys. 436, 333 (1947)] at a heterojunction, but the behavior is quantitatively different than for electromagnetic waves. This suggests issues that must be addressed in designing graphene-based electronic devices analogous to optical devices. GraFDTD should be useful for studying such complex time-dependent behavior of a quasiparticle in graphene.

langue originale	Anglais
Numéro d'article	043504
journal	Applied Physics Letters
Volume	97
Numéro de publication	4
Les DOIs	https://doi.org/10.1063/1.3454909
état	Publié - 26 juil. 2010
Modification externe	Oui

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10.1063/1.3454909

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title = "Time dependent behavior of a localized electron at a heterojunction boundary of graphene",

abstract = "We develop a finite-difference time-domain (FDTD) method for simulating the dynamics of graphene electrons, denoted GraFDTD. We then use GraFDTD to study the temporal behavior of a single localized electron wave packet, showing that it exhibits optical-like dynamics including the Goos-H{\"a}nchen effect [F. Goos and H. H{\"a}nchen, Ann. Phys. 436, 333 (1947)] at a heterojunction, but the behavior is quantitatively different than for electromagnetic waves. This suggests issues that must be addressed in designing graphene-based electronic devices analogous to optical devices. GraFDTD should be useful for studying such complex time-dependent behavior of a quasiparticle in graphene.",

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AU - Kim, Hyungjun

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AU - Goddard, William A.

PY - 2010/7/26

Y1 - 2010/7/26

N2 - We develop a finite-difference time-domain (FDTD) method for simulating the dynamics of graphene electrons, denoted GraFDTD. We then use GraFDTD to study the temporal behavior of a single localized electron wave packet, showing that it exhibits optical-like dynamics including the Goos-Hänchen effect [F. Goos and H. Hänchen, Ann. Phys. 436, 333 (1947)] at a heterojunction, but the behavior is quantitatively different than for electromagnetic waves. This suggests issues that must be addressed in designing graphene-based electronic devices analogous to optical devices. GraFDTD should be useful for studying such complex time-dependent behavior of a quasiparticle in graphene.

AB - We develop a finite-difference time-domain (FDTD) method for simulating the dynamics of graphene electrons, denoted GraFDTD. We then use GraFDTD to study the temporal behavior of a single localized electron wave packet, showing that it exhibits optical-like dynamics including the Goos-Hänchen effect [F. Goos and H. Hänchen, Ann. Phys. 436, 333 (1947)] at a heterojunction, but the behavior is quantitatively different than for electromagnetic waves. This suggests issues that must be addressed in designing graphene-based electronic devices analogous to optical devices. GraFDTD should be useful for studying such complex time-dependent behavior of a quasiparticle in graphene.

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ER -

Time dependent behavior of a localized electron at a heterojunction boundary of graphene

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