Topological valley plasmon transport in bilayer graphene metasurfaces for sensing applications

Topologically protected plasmonic modes located inside topological bandgaps are attracting increasing attention, chiefly due to their robustness against disorder-induced backscattering. Here, we introduce a bilayer graphene metasurface that possesses plasmonic topological valley interface modes when...

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Veröffentlicht in:	Optics letters 2020-06, Vol.45 (11), p.3151-3154
Hauptverfasser:	Wang, Yupei, Wei You, Jian, Lan, Zhihao, Panoiu, Nicolae C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Backscattering Bilayers Detection Domain walls Gas sensors Graphene Lattice vibration Metasurfaces Plasmonics Topology
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creator	Wang, Yupei Wei You, Jian Lan, Zhihao Panoiu, Nicolae C.
description	Topologically protected plasmonic modes located inside topological bandgaps are attracting increasing attention, chiefly due to their robustness against disorder-induced backscattering. Here, we introduce a bilayer graphene metasurface that possesses plasmonic topological valley interface modes when the mirror symmetry of the metasurface is broken by horizontally shifting the lattice of holes of the top layer of the two freestanding graphene layers in opposite directions. In this configuration, light propagation along the domain-wall interface of the bilayer graphene metasurface shows unidirectional features. Moreover, we have designed a molecular sensor based on the topological properties of this metasurface using the fact that the Fermi energy of graphene varies upon chemical doping. This effect induces strong variation of the transmission of the topological guided modes, which can be employed as the underlying working principle of gas sensing devices. Our work opens up new ways of developing robust integrated plasmonic devices for molecular sensing.
doi_str_mv	10.1364/OL.393302
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subjects	Backscattering Bilayers Detection Domain walls Gas sensors Graphene Lattice vibration Metasurfaces Plasmonics Topology
title	Topological valley plasmon transport in bilayer graphene metasurfaces for sensing applications
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