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Plasmonics and metamaterials are growing fields that consistently produce new technologies for controlling electromagnetic waves. Many important advances in both fundamental knowledge and practical applications have been achieved in conjunction with a wide range of materials, structures and wavelengths, from the ultraviolet to the microwave regions of the spectrum. In addition to this remarkable progress across many different fields, much of this research shares many of the same underlying principles, and therefore, significant synergy is expected. This Special Issue introduces the recent advances in plasmonics and metamaterials and discusses various applications, while addressing a wide range of topics, in order to explore the new horizons emerging for such research.

Research & information: general --- plasmonics --- metamaterials --- metal-insulator-metal --- absorbers --- plasmon-induced transparency --- metal-dielectric-metal --- gain material --- tunable fano resonances --- surface plasmon polaritons --- coupled cavities --- finite element method --- spectroscopes --- metamaterial --- structural color filters --- photodiodes --- vortex beam --- polarization conversion --- orbital angular momentum --- tensegrity lattice --- extreme material --- metagratings --- polarization controller --- multifunction --- wide-angle --- dual mode --- cross-polarization converter --- transmitarray --- high polarization conversion ratio --- uncooled --- IR sensors --- wavelength-selective --- metasurfaces --- polarization control --- infrared sensors --- plasmonics --- metamaterials --- metal-insulator-metal --- absorbers --- plasmon-induced transparency --- metal-dielectric-metal --- gain material --- tunable fano resonances --- surface plasmon polaritons --- coupled cavities --- finite element method --- spectroscopes --- metamaterial --- structural color filters --- photodiodes --- vortex beam --- polarization conversion --- orbital angular momentum --- tensegrity lattice --- extreme material --- metagratings --- polarization controller --- multifunction --- wide-angle --- dual mode --- cross-polarization converter --- transmitarray --- high polarization conversion ratio --- uncooled --- IR sensors --- wavelength-selective --- metasurfaces --- polarization control --- infrared sensors

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Plasmonics and metamaterials are growing fields that consistently produce new technologies for controlling electromagnetic waves. Many important advances in both fundamental knowledge and practical applications have been achieved in conjunction with a wide range of materials, structures and wavelengths, from the ultraviolet to the microwave regions of the spectrum. In addition to this remarkable progress across many different fields, much of this research shares many of the same underlying principles, and therefore, significant synergy is expected. This Special Issue introduces the recent advances in plasmonics and metamaterials and discusses various applications, while addressing a wide range of topics, in order to explore the new horizons emerging for such research.

plasmonics --- metamaterials --- metal-insulator-metal --- absorbers --- plasmon-induced transparency --- metal-dielectric-metal --- gain material --- tunable fano resonances --- surface plasmon polaritons --- coupled cavities --- finite element method --- spectroscopes --- metamaterial --- structural color filters --- photodiodes --- vortex beam --- polarization conversion --- orbital angular momentum --- tensegrity lattice --- extreme material --- metagratings --- polarization controller --- multifunction --- wide-angle --- dual mode --- cross-polarization converter --- transmitarray --- high polarization conversion ratio --- uncooled --- IR sensors --- wavelength-selective --- metasurfaces --- polarization control --- infrared sensors