Reconfigurable plasmonic filters and spatial dispersion effects in graphene technology for terahertz applications
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URI: http://hdl.handle.net/10317/4848Compartir
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Mostrar el registro completo del ítemAutor
Correas Serrano, DiegoDirector/a
Álvarez Melcón, Alejandro; Gómez Díaz, Juan SebastiánEscuela/Centro
Escuela Técnica Superior de Ingeniería de TelecomunicaciónTitular/Solicitante
Universidad Politécnica de CartagenaUniversidad
Universidad Politécnica de CartagenaDepartamento
Tecnologías de la Información y las ComunicacionesFecha de publicación
2015-07-02Palabras clave
Filtros plasmónicosDispersión espectral
Grafeno
Terahercios
Plasmonic filters
Spatial dispersion
Terahertz
Graphene technology
Resumen
[ENG]The exceptional electrooptical, thermal, and mechanical properties of graphene has motivated an enormous interest from
the scienti c community in a wide variety of elds in recent years. In particular, the capability of mono- and multilayer
graphene to support highly con ned recon gurable surface plasmon polaritons in the terahertz (THz) and infrared
regime has motivated an explosive growth of graphene plasmonics, a discipline which is paving the way towards fully
integrated THz transceivers and sensing systems. In this project, we rst present the novel design and analysis of planar
recon gurable THz lters hosted in graphene nanoribbons, which are e ciently designed taking advantage of the quasistatic
nature of graphene surface plasmon polaritons (SPPs) in nanostructures and graphene's eld e ect. The proposed
lters are highly miniaturized and present recon guration capabilities not possible with other technologies in the THz
band. Spatial dispersion in graphene sheets ...
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