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Wire Metamaterials: Physics and Applications

Simovski, Constantin R. ; Belov, Pavel A. ; Atrashchenko, Alexander V. ; Kivshar, Yuri S.

Advanced materials (Weinheim), 2012-08, Vol.24 (31), p.4229-4248 [Periódico revisado por pares]

Weinheim: WILEY-VCH Verlag

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  • Título:
    Wire Metamaterials: Physics and Applications
  • Autor: Simovski, Constantin R. ; Belov, Pavel A. ; Atrashchenko, Alexander V. ; Kivshar, Yuri S.
  • Assuntos: Algorithms ; Electromagnetic Phenomena ; indefinite media ; Manufactured Materials ; Materials Testing ; Metals - chemistry ; metamaterials ; Nanotubes - chemistry ; Nanowires - chemistry ; Optics and Photonics ; plasmonic nanorods ; Radio Waves ; subwavelength imaging ; wire media
  • É parte de: Advanced materials (Weinheim), 2012-08, Vol.24 (31), p.4229-4248
  • Notas: istex:15A8FD0629C05070487DF72AA453510DF5318471
    ArticleID:ADMA201200931
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    ObjectType-Article-2
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    ObjectType-Review-1
  • Descrição: The physics and applications of a broad class of artificial electromagnetic materials composed of lattices of aligned metal rods embedded in a dielectric matrix are reviewed. Such structures are here termed wire metamaterials. They appear in various settings and can operate from microwaves to THz and optical frequencies. An important group of these metamaterials is a wire medium possessing extreme optical anisotropy. The study of wire metamaterials has a long history, however, most of their important and useful properties have been revealed and understood only recently, especially in the THz and optical frequency ranges where the wire media correspond to the lattices of microwires and nanowires, respectively. Another group of wire metamaterials are arrays and lattices of nanorods of noble metals whose unusual properties are driven by plasmonic resonances. Wire metamaterials appear in various settings, and they can operate in a wide range of frequencies. Such materials are known to possesses extreme optical anisotropy, and their important properties have been revealed and understood only recently, especially in the optical frequency ranges where the wire media correspond to the lattices of nanowires or nanorods. Examples shown include wire media employed for subwavelength imaging, and also an array of free‐standing nanorods.
  • Editor: Weinheim: WILEY-VCH Verlag
  • Idioma: Inglês
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