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Nanoantennas and Plasmonics: Modelling, design and fabrication

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Editors: Douglas H. Werner 1 ; Sawyer D. Campbell 1 ; Lei Kang 1
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Publication Year: 2020

This book presents cutting-edge research advances in the rapidly growing areas of nanoantennas and plasmonics as well as their related enabling technologies and applications. It provides a comprehensive treatment of the field on subjects ranging from fundamental theoretical principles and new technological developments, to state-of-the-art device design, as well as examples encompassing a wide range of related sub-areas. The content of the book also covers highly-directive nanoantennas, all-dielectric and tuneable/reconfigurable devices, metasurface optical components, and other related topics. Intended to provide valuable information for researchers and graduate students in electromagnetics, antennas and propagation, coverage includes the following topics: optical properties of plasmonic nanoloop antennas; passive and active nano cylinders; coherent control of light scattering; time domain modeling with the generalized dispersive material model; inverse-design of plasmonic and dielectric optical nanoantennas; multi-level atomic systems for modeling nonlinear light-matter interactions; nonlinear multipolar interference: from non-reciprocal directionality to one-way nonlinear mirrors; plasmonic metasurfaces for controlling harmonic generations; optical nanoantennas for enhanced THz emission; active photonics based on phase-change materials and reconfigurable nanowire systems; and nanofabrication techniques for subwavelength optics.

Inspec keywords: optical harmonic generation; reflector antennas; light scattering; light coherence; phase change materials; nanofabrication; nanowires; time-domain analysis; antenna radiation patterns; nanophotonics; microwave photonics; terahertz wave devices; directive antennas; plasmonics; submillimetre wave antennas; metamaterial antennas; electromagnetic wave interference

Other keywords: dielectric optical nanoantennas; time domain modeling; active nano cylinders; generalized dispersive material model; enhanced directive radiation; scattering phenomena; enhanced THz emission; plasmonic nanoloop antennas; active photonics; optical properties; multilevel carrier kinetics models; fabrication; optical nanoantennas; nanofabrication; plasmonics; harmonic generations control; reconfigurable nanowire systems; coherent control; nonreciprocal directionality; plasmonic inverse-design; light scattering; nonlinear multipolar interference; subwavelength optics; phase-change materials; needle point; dancing angels; computational nanophotonics; plasmonic metasurfaces; one-way nonlinear mirror; passive nano cylinders

Subjects: Electromagnetic wave propagation; Antenna theory; Antennas; General electrical engineering topics; Nanophotonic devices and technology; Nanometre-scale semiconductor fabrication technology; Mathematical analysis; Optical harmonic generation, frequency conversion, parametric oscillation and amplification; Microwave photonics

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