2023
DOI: 10.1039/d2ma00910b
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Recent advances in strongly resonant and gradient all-dielectric metasurfaces

Abstract: All-dielectric metasurfaces have been intensively researched as a low-loss, flat-optics platform for the advanced manipulation of electromagnetic wave propagation. Among the numerous metasurface-enabled functionalities, particular focus has been recently placed...

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Cited by 39 publications
(14 citation statements)
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“…A metasurface is a quasi-2D artificially designed interface with tailored properties, typically achieved by adding a structuring in the wavelength scale or smaller 9 . Metasurface engineered properties, which has been proved to be attainable over an ultra-wide spectral range 10 , depend on materials, position, size, density, shape, and orientation of the structuring, which can be controlled by the designer to obtain a specific electromagnetic response that cannot be achieved by means of natural interfaces 11,12 . The action that such meta-structures imparts on an electromagnetic wave interacting with them is expressed in a strong control of both their "simple" properties (such as amplitude, phase and polarization) and their "exotic" ones (such as orbital properties, topological phase-Pancharatnam-Berry phase-and orbital momentum [13][14][15][16] ).…”
Section: Design Of Optically Transparent Metasurfaces Based On Cvd Gr...mentioning
confidence: 99%
“…A metasurface is a quasi-2D artificially designed interface with tailored properties, typically achieved by adding a structuring in the wavelength scale or smaller 9 . Metasurface engineered properties, which has been proved to be attainable over an ultra-wide spectral range 10 , depend on materials, position, size, density, shape, and orientation of the structuring, which can be controlled by the designer to obtain a specific electromagnetic response that cannot be achieved by means of natural interfaces 11,12 . The action that such meta-structures imparts on an electromagnetic wave interacting with them is expressed in a strong control of both their "simple" properties (such as amplitude, phase and polarization) and their "exotic" ones (such as orbital properties, topological phase-Pancharatnam-Berry phase-and orbital momentum [13][14][15][16] ).…”
Section: Design Of Optically Transparent Metasurfaces Based On Cvd Gr...mentioning
confidence: 99%
“…However, there has been growing interest in emerging applications of metasurfaces such as quantum emission, computing, wireless communication, and biomedical applications, as shown in a review by C W Qiu et al [73]. The exploitation of novel optical phenomena such as quasi-bound states in the continuum resonances in metasurfaces for applications such as biosensing, emission, and nonlinear optics was reviewed by Dimitrios et al [74]. Additionally, the review mentions advances in resonant and non-resonant (geometric or Panchratnam Berry phase shift) metasurfaces for lensing, holography, and beam steering applications, along with brief mentions of the reconfigurability aspect in dynamic metasurfaces.…”
Section: Previous Reviews and Their Coveragementioning
confidence: 99%
“…Taking all of the above into account, metasurfaces may be proposed for such an application. Metasurfaces are defined as man-made, surfaces which exhibit substantial electromagnetic properties, that cannot be found in natural materials, such as perfect absorption, negative or large positive refractive index, magnetism at high frequencies, etc. , The basic component of a metasurface is called the meta-atom, which is of specific shape and dimensions. The appropriate arrangement of similar meta-atoms in the space is tightly correlated to the electromagnetic response of the metasurface.…”
Section: Introductionmentioning
confidence: 99%