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Plasmonics and Light-Matter Interactions in Two-Dimensional Materials and in Metal Nanostructures [electronic resource] : Classical and Quantum Considerations / by Paulo André Dias Gonçalves.

By: Gonçalves, Paulo André Dias [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Springer Theses, Recognizing Outstanding Ph.D. ResearchPublisher: Cham : Springer International Publishing : Imprint: Springer, 2020Edition: 1st ed. 2020Description: XVIII, 232 p. 89 illus., 63 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783030382919Subject(s): Lasers | Photonics | Nanoscale science | Nanoscience | Nanostructures | Surfaces (Physics) | Interfaces (Physical sciences) | Thin films | Quantum physics | Optics, Lasers, Photonics, Optical Devices | Nanoscale Science and Technology | Surface and Interface Science, Thin Films | Quantum PhysicsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 621.36 LOC classification: TA1671-1707TA1501-1820Online resources: Click here to access online
Contents:
Introduction -- Classical Electrodynamics of Solids -- Electronic and Optical Properties of Graphene -- Fundamentals of Graphene Plasmonics -- Two-Dimensional Channel Plasmons in Nonplanar Geometries -- Electrodynamics of Metals Beyond the Local-Response Approximation: Nonlocal Effects -- Quantum Nonlocal Effects Probed by Ultraconfined Graphene Plasmons -- Quantum Corrections in Plasmonics and Plasmon-Emitter Interactions -- Conclusions and Outlook -- Appendices.
In: Springer Nature eBookSummary: This thesis presents a comprehensive theoretical description of classical and quantum aspects of plasmonics in three and two dimensions, and also in transdimensional systems containing elements with different dimensionalities. It focuses on the theoretical understanding of the salient features of plasmons in nanosystems as well as on the multifaceted aspects of plasmon-enhanced light-matter interactions at the nanometer scale. Special emphasis is given to the modeling of nonclassical behavior across the transition regime bridging the classical and the quantum domains. The research presented in this dissertation provides useful tools for understanding surface plasmons in various two- and three-dimensional nanostructures, as well as quantum mechanical effects in their response and their joint impact on light-matter interactions at the extreme nanoscale. These contributions constitute novel and solid advancements in the research field of plasmonics and nanophotonics that will help guide future experimental investigations in the blossoming field of nanophotonics, and also facilitate the design of the next generation of truly nanoscale nanophotonic devices. . .
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Introduction -- Classical Electrodynamics of Solids -- Electronic and Optical Properties of Graphene -- Fundamentals of Graphene Plasmonics -- Two-Dimensional Channel Plasmons in Nonplanar Geometries -- Electrodynamics of Metals Beyond the Local-Response Approximation: Nonlocal Effects -- Quantum Nonlocal Effects Probed by Ultraconfined Graphene Plasmons -- Quantum Corrections in Plasmonics and Plasmon-Emitter Interactions -- Conclusions and Outlook -- Appendices.

This thesis presents a comprehensive theoretical description of classical and quantum aspects of plasmonics in three and two dimensions, and also in transdimensional systems containing elements with different dimensionalities. It focuses on the theoretical understanding of the salient features of plasmons in nanosystems as well as on the multifaceted aspects of plasmon-enhanced light-matter interactions at the nanometer scale. Special emphasis is given to the modeling of nonclassical behavior across the transition regime bridging the classical and the quantum domains. The research presented in this dissertation provides useful tools for understanding surface plasmons in various two- and three-dimensional nanostructures, as well as quantum mechanical effects in their response and their joint impact on light-matter interactions at the extreme nanoscale. These contributions constitute novel and solid advancements in the research field of plasmonics and nanophotonics that will help guide future experimental investigations in the blossoming field of nanophotonics, and also facilitate the design of the next generation of truly nanoscale nanophotonic devices. . .

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