Optical Properties of Photonic Structures
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One of the first books specifically focused on disorder in photonic structures, this work explores how both order and disorder provide the key to the different regimes of light transport and to the systematic localization and trapping of light. Leading researchers describe one-, two-, and three-dimensional structures, including opals, aperiodic Fibonacci-type photonic structures, photonic amorphous structures, photonic glasses, Lévy glasses, and hypersonic, magnetophotonic, and plasmonic-photonic crystals with nanocavities, quantum dots, and lasing action. The book also addresses practical…mehr

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Produktbeschreibung
One of the first books specifically focused on disorder in photonic structures, this work explores how both order and disorder provide the key to the different regimes of light transport and to the systematic localization and trapping of light. Leading researchers describe one-, two-, and three-dimensional structures, including opals, aperiodic Fibonacci-type photonic structures, photonic amorphous structures, photonic glasses, Lévy glasses, and hypersonic, magnetophotonic, and plasmonic-photonic crystals with nanocavities, quantum dots, and lasing action. The book also addresses practical applications in areas such as optical communications and laser surgery.
Autorenporträt
Mikhail F. Limonov is a leading research scientist at the Ioffe Physical-Technical Institute of the Russian Academy of Sciences and a research fellow at the National Research University of Information Technologies, Mechanics and Optics. He has worked for more than 30 years in the optical research community, focusing on various dielectrics, fullerenes, zeolites, superconductors, and photonic crystals. Richard M. De La Rue is a visiting professor at the University of Malaya and an honorary senior research fellow at the University of Glasgow. He is a fellow of the IEEE, OSA, IET, RSE, and RAEng. His research on photonic-crystal, nanophotonic, and photonic-wire structures has focused on both waveguide microcavities and metamaterials.