TY - CHAP AU - V.V. Kruglyak AU - M. Dvornik AU - R.V. Mikhaylovskiy AU - O. Dmytriiev AU - G. Gubbiotti AU - S. Tacchi AU - M. Madami AU - G. Carlotti AU - F. Montoncello AU - L. Giovannini AU - R. Zivieri AU - J.W. Klos AU - M.L. Sokolovskyy AU - S. Mamica AU - M. Krawczyk AU - M. Okuda AU - J.C. Eloi AU - S. Ward Jones AU - W. Schwarzacher AU - T. Schwarze AU - F. Brandl AU - D. Grundler AU - D.V. Berkov AU - E. Semenova AU - N. Gorn ED - Xun-Ya Jiang Y1 - 2012-05-16 PY - 2012 T1 - Magnonic Metamaterials N2 - In-depth analysis of the theory, properties and description of the most potential technological applications of metamaterials for the realization of novel devices such as subwavelength lenses, invisibility cloaks, dipole and reflector antennas, high frequency telecommunications, new designs of bandpass filters, absorbers and concentrators of EM waves etc. In order to create a new devices it is necessary to know the main electrodynamical characteristics of metamaterial structures on the basis of which the device is supposed to be created. The electromagnetic wave scattering surfaces built with metamaterials are primarily based on the ability of metamaterials to control the surrounded electromagnetic fields by varying their permeability and permittivity characteristics. The book covers some solutions for microwave wavelength scales as well as exploitation of nanoscale EM wavelength such as visible specter using recent advances of nanotechnology, for instance in the field of nanowires, nanopolymers, carbon nanotubes and graphene. Metamaterial is suitable for scholars from extremely large scientific domain and therefore given to engineers, scientists, graduates and other interested professionals from photonics to nanoscience and from material science to antenna engineering as a comprehensive reference on this artificial materials of tomorrow. BT - Metamaterial SP - Ch. 14 UR - https://doi.org/10.5772/37454 DO - 10.5772/37454 SN - PB - IntechOpen CY - Rijeka Y2 - 2024-05-04 ER -