Litcius/Paper detail

Hybridization of graphene-gold plasmons for active control of mid-infrared radiation

Matthew D. Feinstein, Euclides Almeida

2024Scientific Reports12 citationsDOIOpen Access PDF

Abstract

Many applications in environmental and biological sensing, standoff detection, and astronomy rely on devices that operate in the mid-infrared range, where active devices can play a critical role in advancing discovery and innovation. Nanostructured graphene has been proposed for active miniaturized mid-infrared devices via excitation of tunable surface plasmons, but typically present low efficiencies due to weak coupling with free-space radiation and plasmon damping. Here we present a strategy to enhance the light-graphene coupling efficiency, in which graphene plasmons couple with gold localized plasmons, creating novel hybridized plasmonic modes. We demonstrate a metasurface in which hybrid plasmons are excited with transmission modulation rates of 17% under moderate doping (0.35 eV) and in ambient conditions. We also evaluate the metasurface as a mid-infrared modulator, measuring switching speeds of up to 16 kHz. Finally, we propose a scheme in which we can excite strongly coupled gold-graphene gap plasmons in the thermal radiation range, with applications to nonlinear optics, slow light, and sensing.

Topics & Concepts

PlasmonGrapheneOptoelectronicsMaterials scienceInfraredSurface plasmonRadiationCoupling (piping)OpticsNanotechnologyPhysicsMetallurgyPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsThermal Radiation and Cooling Technologies