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Literature DB >> 27713664

Mathematical and numerical framework for metasurfaces using thin layers of periodically distributed plasmonic nanoparticles.

Habib Ammari¹, Matias Ruiz², Wei Wu¹, Sanghyeon Yu¹, Hai Zhang³.

Abstract

In this paper, we derive an impedance boundary condition to approximate the optical scattering effect of an array of plasmonic nanoparticles mounted on a perfectly conducting plate. We show that at some resonant frequencies the impedance blows up, allowing for a significant reduction of the scattering from the plate. Using the spectral properties of a Neumann-Poincaré type operator, we investigate the dependency of the impedance with respect to changes in the nanoparticle geometry and configuration.

Keywords: Neumann–Poincaré operator; array of nanoparticles; metasurfaces; periodic Green function; plasmonic resonance

Year: 2016 PMID： 27713664 PMCID： PMC5046988 DOI： 10.1098/rspa.2016.0445

Source DB: PubMed Journal: Proc Math Phys Eng Sci ISSN： 1364-5021 Impact factor: 2.704

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References

3 in total

Mathematical and numerical framework for metasurfaces using thin layers of periodically distributed plasmonic nanoparticles.

Review 1. Metasurfaces for general transformations of electromagnetic fields.

2. The ring: a leitmotif in plasmonics.

3. Plasmonic nanoparticle scattering for color holograms.