Tunable Plasmonic Reflection by Bound 1D Electron States in a 2D Dirac Metal

Tunable Plasmonic Reflection by Bound 1D Electron States in a 2D Dirac Metal

We show that the surface plasmons of a two-dimensional Dirac metal such as graphene can be reflected by linelike perturbations hosting one-dimensional electron states. The reflection originates from a strong enhancement of the local optical conductivity caused by optical transitions involving these...

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Veröffentlicht in:Physical review letters 2016-08, Vol.117 (8), p.086801-086801, Article 086801
Hauptverfasser: Jiang, B-Y, Ni, G X, Pan, C, Fei, Z, Cheng, B, Lau, C N, Bockrath, M, Basov, D N, Fogler, M M
Format: Artikel
Sprache:eng
Schlagworte:
Electron states
Gates
Graphene
Infrared
Optical transition
Plasmonics
Plasmons
Reflection
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Zusammenfassung:We show that the surface plasmons of a two-dimensional Dirac metal such as graphene can be reflected by linelike perturbations hosting one-dimensional electron states. The reflection originates from a strong enhancement of the local optical conductivity caused by optical transitions involving these bound states. We propose that the bound states can be systematically created, controlled, and liquidated by an ultranarrow electrostatic gate. Using infrared nanoimaging, we obtain experimental evidence for the locally enhanced conductivity of graphene induced by a carbon nanotube gate, which supports this theoretical concept.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.117.086801