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Viser: Plasmonic Resonators - Fundamentals, Advances, and Applications
Plasmonic Resonators Vital Source e-bog
Masanobu Iwanaga
(2016)
Plasmonic Resonators
Fundamentals, Advances, and Applications
Masanobu Iwanaga
(2016)
Sprog: Engelsk
om ca. 10 hverdage
Detaljer om varen
- 1. Udgave
- Vital Source searchable e-book (Reflowable pages)
- Udgiver: Taylor & Francis (Oktober 2016)
- ISBN: 9781315341040
Bookshelf online: 5 år fra købsdato.
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Detaljer om varen
- Hardback: 324 sider
- Udgiver: Taylor & Francis Group (August 2016)
- ISBN: 9789814745062
Plasmonic resonators, composed of metallic micro- and nanostructures, belong to the category of excited-state physics on resonances from gigahertz to petahertz. Dynamical physics is in contrast to ground-state physics, which includes thermal states, and is connected to diverse applications to enhance existing photo-induced effects and phenomena such as plasmon-enhanced photoluminescence and Raman scattering. This book has three main aims: to provide fundamental knowledge on plasmonic resonators, to explain diverse plasmonic resonators, and to stimulate further development in plasmonic resonators.
Plasmon-related studies, which are sometimes called plasmonics and include a substantial portion of metamaterials, have shown significant development since the 1980s. The piled-up results are too numerous to study from the beginning, but this book summarizes those results, including the history (past), all the possible types of plasmonic resonators (present), and their wide range of applications (future). It provides the basics of plasmons and resonant physics for undergraduate students, the systematic knowledge on plasmonic resonators for graduate students, and cutting-edge and in-depth information on plasmon-enhancement studies for researchers who are not experts in plasmonics and metamaterials, thereby benefitting a wide range of readers who are interested in the nanotechnology involving metallic nanostructures.
Plasma Frequency: Concept of Bulk Plasmon Optical Constants in Metals Metal-Insulator Interface Where Surface Plasmon Polaritons (SPPs) Emerge Brief Overview of the History Numerical Methods Nanofabrication Methods Summary Response Function Theory Classical Model for Response Function Quantum Mechanical Description for Response Function Spectral Theory Generalized Theory for Response Function Summary Plasmonic Resonators Plasmonic Waveguides Nanoparticle (NP) Plasmonic Resonators NP-Assembled Plasmonic Resonators Single-Layer Lattices Collective Oscillation Associated with Longitudinal Component in Plasmonic Resonators Plasmonic Resonators of Simply Stacked Structures Plasmonic Resonators with Chirality Plasmonic Resonators of Stacked Complementary (SC) Structures: Heteroplasmon Hybridized States Perfect Absorbers Summary Nonlocality on Plasmonic Resonances Nonlocal Responses in Far-Field Spectra Nonlocal Responses in Near-Field Scattering Optical Nonlocality in Plasmonic Resonators Summary Plasmonic Enhancement Principles of Plas* Purcell Effect PlasPL Surface-Plasmon-Amplified Stimulated Emission Resonators (SPASER) Strong Coupling of Plasmons with Excitons and Other Resonances PlasRaman PlasCat PlasNLO Other Plas* IR Emitters Summary Future Prospects Status after Two Decades since the Era of Nanotechnology Directions Being Opened Challenges in Near Future Concluding Remarks
Appendix A: Abbreviations and Symbols Abbreviations Symbols
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