UID:
edoccha_9960074061602883
Format:
1 online resource (461 p.)
ISBN:
0-444-63813-X
,
0-444-59523-6
Series Statement:
Handbook of Surface Science, Volume 4
Content:
Plasmonics is entering the curriculum of many universities, either as a stand alone subject, or as part of some course or courses. Nanotechnology institutes have been, and are being, established in universities, in which plasmonics is a significant topic of research. Modern Plasmonics book offers a comprehensive presentation of the properties of surface plasmon polaritons, in systems of different structures and various natures, e.g. active, nonlinear, graded, theoretical/computational and experimental techniques for studying them, and their use in a variety of applications. Contains materia
Note:
Description based upon print version of record
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Half Title; Title Page; Copyright; Contents; Preface; Contributors; 1 Introduction: Plasmonics and its Building Blocks; 1.1 Surface Plasmon Polaritons; 1.2 Localized Surface Plasmon Resonances; 1.3 Constructions; 1.3.1 Excitation and Observation of Surface Plasmon Polaritons; 1.3.2 Guiding of Surface Plasmon Polaritons; 1.3.3 Attenuation of Surface Plasmon Polaritons and its Suppression; 1.3.4 Surface Plasmon Polariton Scattering from Surface Defects; 1.3.5 Accelerating Surface Plasmon Polaritons; 1.3.6 Surface Plasmon Polariton Lasers; 1.3.7 Transformation Optics
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1.3.8 Plasmonic Metamaterials1.3.9 Nanoparticles on Substrates; 1.3.10 Surface Shape Resonances; 1.3.11 Fabrication of Nanoparticles; 1.3.12 Some Applications of Nanoparticles; 1.3.13 Quantum Plasmonics; 1.4 Conclusions; Acknowledgments; References; 2 The Basics of Plasmonics; 2.1 Surface Electromagnetic Waves; 2.2 The Dispersion Relation and Character of Surface Electromagnetic Waves; 2.3 Plasmons, Surface Plasmons, and Surface Plasmon-Polaritons; 2.3.1 Plasmonic Excitations; 2.3.2 Properties of Surface Plasmon-Polaritons; 2.3.3 Coupled Surface Plasmon-Polaritons
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2.4 Different Types of Surface Electromagnetic Waves2.5 Excitation of Surface Waves; 2.5.1 Prism Coupling; 2.5.2 Grating Coupling; 2.6 Localized Surface Plasmon-Polaritons; 2.6.1 The Quasi-Static Model; 2.6.2 The Modified Long-Wavelength Approximation; 2.6.3 Full Electrodynamic Solutions; 2.7 Summary; References; 3 Optical Properties of Strongly Coupled Plasmonic Nanoparticle Clusters; 3.1 Introduction; 3.2 Optical Properties of Single Particles; 3.2.1 Shape Effects: Nanospheres, Nanorods, and Dumbbells; 3.2.2 Substrate Influence; 3.2.3 Single Particle Spectroscopy
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3.3 Optical Properties of Strongly Coupled Clusters3.3.1 Nanosphere Chains; 3.3.2 Symmetric 2D Trimers and 3D Tetramers; 3.3.3 Experimental Realization of Nearly Symmetric 2D and 3D Clusters; 3.3.4 Symmetry Breaking in 2D Trimers and Tetramers; 3.3.5 Nanorod Dimers Aligned End-to-End; 3.3.6 Nanorods Arranged in Different Geometric Arrangements; 3.3.7 End-to-End Rod-Sphere-Rod Trimers With Different Angles; 3.4 Cavity Modes in Laterally Aligned Nanorod Clusters; 3.4.1 Bulk Metal-Insulator-Metal Waveguides; 3.4.2 Cavity Modes in Laterally Aligned Nanorod Clusters; 3.5 Summary; Acknowledgments
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References4 Plasmonic Optical Nanoantennas; 4.1 Introduction; 4.2 General Properties of Plasmonic Nanoantennas and Their Nanocircuit Model; 4.3 Radiation Properties, Loading, Matching, and Tuning of Nanoantennas; 4.4 Arrays of Plasmonic Nanoantennas: Magnetic Effects and Metamaterials; 4.5 Nanoantenna Metasurfaces to Manipulate the Nanoscale; 4.6 Enhanced Optical Fields and Nonlinear Optics at the Nanoscale; 4.7 Nanoantenna Fabrication and Characterization; 4.8 Nanoantennas for Energy Harvesting; 4.9 Conclusions; Acknowledgements; References; 5 Waveguiding with Surface Plasmon Polaritons
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5.1 Introduction
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English
Additional Edition:
ISBN 1-322-12656-9
Additional Edition:
ISBN 0-444-59526-0
Language:
English
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