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Collective near-field coupling and nonlocal phenomena in infrared-phononic metasurfaces for nano-light canalization

Peining Li, Guangwei Hu, Irene Dolado, Mykhailo Tymchenko, Cheng-Wei Qiu, Francisco Javier Alfaro-Mozaz, Fèlix Casanova, Luis E. Hueso, Song Liu, James H. Edgar, Saül Vélez, Andrea Alu, Rainer Hillenbrand

2020Nature Communications122 citationsDOIOpen Access PDF

Abstract

Polaritons - coupled excitations of photons and dipolar matter excitations - can propagate along anisotropic metasurfaces with either hyperbolic or elliptical dispersion. At the transition from hyperbolic to elliptical dispersion (corresponding to a topological transition), various intriguing phenomena are found, such as an enhancement of the photonic density of states, polariton canalization and hyperlensing. Here, we investigate theoretically and experimentally the topological transition, the polaritonic coupling and the strong nonlocal response in a uniaxial infrared-phononic metasurface, a grating of hexagonal boron nitride (hBN) nanoribbons. By hyperspectral infrared nanoimaging, we observe a synthetic transverse optical phonon resonance (strong collective near-field coupling of the nanoribbons) in the middle of the hBN Reststrahlen band, yielding a topological transition from hyperbolic to elliptical dispersion. We further visualize and characterize the spatial evolution of a deeply subwavelength canalization mode near the transition frequency, which is a collimated polariton that is the basis for hyperlensing and diffraction-less propagation.

Topics & Concepts

PolaritonPhysicsCoupling (piping)QuasiparticlePhotonicsCondensed matter physicsGratingAnisotropyPlasmonPhotonResonance (particle physics)Dispersion (optics)NanophotonicsTopological defectDispersion relationDipoleQuantum opticsTransverse planeTopology (electrical circuits)OpticsPhononMode couplingQuantum mechanicsLocal density of statesSurface plasmon polaritonDiffractionPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsThermal Radiation and Cooling Technologies
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