Description
Physics and Applications of Negative Refractive Index Materials
Language: English
Keywords
Left Handed Media; Negative Refractive Index Materials; refraction; Negative Refractive Index; left; Negative Refractive; handed; Negative Refractive Index Media; media; Photonic Crystals; photonic; Split Ring Resonators; crystal; Surface Plasmon; constitutive; Negative Index Media; parameters; Constitutive Parameters; medium; Isofrequency Contour; surface; Dielectric Permittivity; Negative Material Parameters; Group Velocity; Medium Parameters; Poynting Vector; Bianisotropic Medium; Perfect Lens; Evanescent Waves; Surface Plasmon Modes; Negative Magnetic Permeability; Negative Dielectric Permittivity; Dispersion Relation; Veselago Lens; Nonlinear Metamaterials
Publication date: 06-2020
· 15.6x23.4 cm · Paperback
Publication date: 09-2008
416 p. · 15.6x23.4 cm · Hardback
Description
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Ever since the first experimental demonstration was reported in 2000, the interest in metamaterials and left-handed media that exhibit a negative refractive index has increased exponentially. Surveying this explosive growth, Physics and Applications of Negative Refractive Index Materials covers the fundamental physical principles and emerging engineering applications of structured electromagnetic metamaterials that yield a negative refraction as well as other unexpected physical properties. It provides detailed explanations on the history, development, and main achievements of metamaterials.
Making it easy to access relevant, up-to-date information on the field, the authors bring together the most important and influential papers related to metamaterials. They present the principles of negative refraction and compare the uniqueness of novel metamaterials with other media that exhibit similar properties. The book discusses the design, optimization, and testing of structured metamaterials as well as applications of metamaterials at frequencies ranging from radio wave to optical. It also explores novel concepts and phenomena, such as the perfect lens for super-resolution imaging, hyper lenses that couple the near-field to radiative modes, electromagnetic cloaking and invisibility, and near-field optical imaging.
Connecting theoretical ideas to recent experimental techniques and results, this state-of-the-art book enables an understanding of the basic principles of and research contributions to metamaterials with negative refractive index and their electromagnetic properties.
Introduction. Metamaterials and Homogenization of Composites. Designing Metamaterials with Negative Material Parameters. Negative Refraction and Photonic Bandgap Materials. Media with e < 0 and µ < 0: Theory and Properties. Energy and Momentum in Negative Refractive Index Materials. Plasmonics of Media with Negative Material Parameters. Veselago’s Lens Is a Perfect Lens. Designing Super Lenses. Brief Report on Electromagnetic Invisibility. Appendices. References. Index.
