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Cross-polarized surface lattice resonances in a rectangular lattice plasmonic metasurface

M. Saad Bin-Alam, Orad Reshef, Raja Naeem Ahmad, Jeremy Upham, Mikko J. Huttunen, Ksenia Dolgaleva, Robert W. Boyd

2022Optics Letters11 citationsDOIOpen Access PDF

Abstract

Multiresonant metasurfaces could enable many applications in filtering, sensing, and nonlinear optics. However, developing a metasurface with more than one high-quality-factor or high-Q resonance at designated resonant wavelengths is challenging. Here, we experimentally demonstrate a plasmonic metasurface exhibiting different, narrow surface lattice resonances by exploiting the polarization degree of freedom where different lattice modes propagate along different dimensions of the lattice. The surface consists of aluminum nanostructures in a rectangular periodic lattice. The resulting surface lattice resonances were measured around 640 nm and 1160 nm with Q factors of ∼50 and ∼800, respectively. The latter is a record-high plasmonic Q factor within the near-infrared type-II window. Such metasurfaces could benefit such applications as frequency conversion and all-optical switching.

Topics & Concepts

PlasmonLattice (music)Surface plasmonOpticsPhysicsWavelengthFano resonancePolarization (electrochemistry)Surface plasmon resonanceResonance (particle physics)MetamaterialMaterials scienceSurface waveSum-frequency generationNonlinear systemLocalized surface plasmonOptoelectronicsNanostructureNonlinear opticsCondensed matter physicsElectron-beam lithographyLattice constantCircular polarizationSurface plasmon polaritonRefractive indexBandwidth (computing)Q factorCoupled mode theoryQuasiparticleElectromagnetically induced transparencyRigorous coupled-wave analysisHexagonal latticePlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsAcoustic Wave Phenomena Research
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