Negative Refraction in Time-Varying Strongly Coupled Plasmonic-Antenna–Epsilon-Near-Zero Systems Article Swipe

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Plasmon Zero (linguistics) Physics Negative refraction Antenna (radio) Refraction Optics Condensed matter physics Metamaterial Telecommunications Computer science Linguistics Philosophy

Vincenzo Bruno , Clayton DeVault , Stefano Vezzoli , Zhaxylyk A. Kudyshev , Tahiyat Huq , Sandro Mignuzzi , Andrea Jacassi , Soham Saha , Yash D. Shah , Stefan A. Maier , David R. S. Cumming , Alexandra Boltasseva , Marcello Ferrera , Matteo Clerici , Daniele Faccio , Riccardo Sapienza , Vladimir M. Shalaev ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.1103/physrevlett.124.043902 · OA: W2967636876

Time-varying metasurfaces are emerging as a powerful instrument for the dynamical control of the electromagnetic properties of a propagating wave. Here we demonstrate an efficient time-varying metasurface based on plasmonic nano-antennas strongly coupled to an epsilon-near-zero (ENZ) deeply subwavelength film. The plasmonic resonance of the metal resonators strongly interacts with the optical ENZ modes, providing a Rabi level spitting of ∼30%. Optical pumping at frequency ω induces a nonlinear polarization oscillating at 2ω responsible for an efficient generation of a phase conjugate and a negative refracted beam with a conversion efficiency that is more than 4 orders of magnitude greater compared to the bare ENZ film. The introduction of a strongly coupled plasmonic system therefore provides a simple and effective route towards the implementation of ENZ physics at the nanoscale.