Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene

Christian Kramberger; R Hambach; C Giorgetti; Mark Rümmeli; Martin Knupfer; J. Fink; Bernd Büchner; Lucia Reining; Erik Einarsson; Shigeo Maruyama; F Sottile; K Hannewald; V Olevano; A G Marinopoulos; Thomas Pichler

doi:10.1103/PhysRevLett.100.196803

Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene

Christian Kramberger, R Hambach, C Giorgetti, Mark Rümmeli, Martin Knupfer, J. Fink, Bernd Büchner, Lucia Reining, Erik Einarsson, Shigeo Maruyama, F Sottile, K Hannewald, V Olevano, A G Marinopoulos, Thomas Pichler

Elektronische Materialeigenschaften

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

We have measured a strictly linear π plasmon dispersion along the axis of individualized single-wall carbon nanotubes, which is completely different from plasmon dispersions of graphite or bundled single-wall carbon nanotubes. Comparative ab initio studies on graphene-based systems allow us to reproduce the different dispersions. This suggests that individualized nanotubes provide viable experimental access to collective electronic excitations of graphene, and it validates the use of graphene to understand electronic excitations of carbon nanotubes. In particular, the calculations reveal that local field effects cause a mixing of electronic transitions, including the “Dirac cone,” resulting in the observed linear dispersion

Originalsprache	Englisch
Aufsatznummer	196803
Seitenumfang	4
Fachzeitschrift	Physical Review Letters
Jahrgang	100
DOIs	https://doi.org/10.1103/PhysRevLett.100.196803
Publikationsstatus	Veröffentlicht - 2008

ÖFOS 2012

1030 Physik, Astronomie

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10.1103/PhysRevLett.100.196803

Zitationsweisen

Kramberger, C., Hambach, R., Giorgetti, C., Rümmeli, M., Knupfer, M., Fink, J., Büchner, B., Reining, L., Einarsson, E., Maruyama, S., Sottile, F., Hannewald, K., Olevano, V., Marinopoulos, A. G., & Pichler, T. (2008). Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene. Physical Review Letters, 100, Artikel 196803 . https://doi.org/10.1103/PhysRevLett.100.196803

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title = "Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene",

abstract = "We have measured a strictly linear π plasmon dispersion along the axis of individualized single-wall carbon nanotubes, which is completely different from plasmon dispersions of graphite or bundled single-wall carbon nanotubes. Comparative ab initio studies on graphene-based systems allow us to reproduce the different dispersions. This suggests that individualized nanotubes provide viable experimental access to collective electronic excitations of graphene, and it validates the use of graphene to understand electronic excitations of carbon nanotubes. In particular, the calculations reveal that local field effects cause a mixing of electronic transitions, including the “Dirac cone,” resulting in the observed linear dispersion",

author = "Christian Kramberger and R Hambach and C Giorgetti and Mark R{\"u}mmeli and Martin Knupfer and J. Fink and Bernd B{\"u}chner and Lucia Reining and Erik Einarsson and Shigeo Maruyama and F Sottile and K Hannewald and V Olevano and Marinopoulos, {A G} and Thomas Pichler",

note = "DOI: 10.1103/PhysRevLett.100.196803 ",

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Kramberger, C, Hambach, R, Giorgetti, C, Rümmeli, M, Knupfer, M, Fink, J, Büchner, B, Reining, L, Einarsson, E, Maruyama, S, Sottile, F, Hannewald, K, Olevano, V, Marinopoulos, AG & Pichler, T 2008, 'Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene', Physical Review Letters, Jg. 100, 196803 . https://doi.org/10.1103/PhysRevLett.100.196803

TY - JOUR

T1 - Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene

AU - Kramberger, Christian

AU - Hambach, R

AU - Giorgetti, C

AU - Rümmeli, Mark

AU - Knupfer, Martin

AU - Fink, J.

AU - Büchner, Bernd

AU - Reining, Lucia

AU - Einarsson, Erik

AU - Maruyama, Shigeo

AU - Sottile, F

AU - Hannewald, K

AU - Olevano, V

AU - Marinopoulos, A G

AU - Pichler, Thomas

N1 - DOI: 10.1103/PhysRevLett.100.196803

PY - 2008

Y1 - 2008

N2 - We have measured a strictly linear π plasmon dispersion along the axis of individualized single-wall carbon nanotubes, which is completely different from plasmon dispersions of graphite or bundled single-wall carbon nanotubes. Comparative ab initio studies on graphene-based systems allow us to reproduce the different dispersions. This suggests that individualized nanotubes provide viable experimental access to collective electronic excitations of graphene, and it validates the use of graphene to understand electronic excitations of carbon nanotubes. In particular, the calculations reveal that local field effects cause a mixing of electronic transitions, including the “Dirac cone,” resulting in the observed linear dispersion

AB - We have measured a strictly linear π plasmon dispersion along the axis of individualized single-wall carbon nanotubes, which is completely different from plasmon dispersions of graphite or bundled single-wall carbon nanotubes. Comparative ab initio studies on graphene-based systems allow us to reproduce the different dispersions. This suggests that individualized nanotubes provide viable experimental access to collective electronic excitations of graphene, and it validates the use of graphene to understand electronic excitations of carbon nanotubes. In particular, the calculations reveal that local field effects cause a mixing of electronic transitions, including the “Dirac cone,” resulting in the observed linear dispersion

U2 - 10.1103/PhysRevLett.100.196803

DO - 10.1103/PhysRevLett.100.196803

M3 - Article

SN - 0031-9007

VL - 100

JO - Physical Review Letters

JF - Physical Review Letters

M1 - 196803

ER -

Linear plasmon dispersion in single-wall carbon nanotubes and the collective excitation spectrum of graphene

Abstract

ÖFOS 2012

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