Canonical Problems in the Theory of Plasmonics [electronic resource] : From 3D to 2D Systems / by Afshin Moradi.Material type: TextSeries: Springer Series in Optical Sciences ; 230Publisher: Cham : Springer International Publishing : Imprint: Springer, 2020Edition: 1st ed. 2020Description: XVII, 349 p. 137 illus., 134 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783030438364Subject(s): Lasers | Photonics | Nanotechnology | Microwaves | Optical engineering | Partial differential equations | Optics | Electrodynamics | Plasma (Ionized gases) | Optics, Lasers, Photonics, Optical Devices | Nanotechnology | Microwaves, RF and Optical Engineering | Partial Differential Equations | Classical Electrodynamics | Plasma PhysicsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 621.36 LOC classification: TA1671-1707TA1501-1820Online resources: Texto completo
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Part I: Three-Dimensional Electron Gases -- Chapter 1: Basic concepts and formalism. Chapter 2: Problems in Electrostatic Approximation -- Chapter 3: Problems in Electromagnetic Theory -- Chapter 4: Problems in Electrostatic Approximation: Spatial Nonlocal Effects -- Chapter 5: Problems in Electromagnetic Theory: Spatial Nonlocal Effects -- Part II: Two-Dimensional Electron Gases -- Chapter 6: Electrostatic Problems Involving Two-Dimensional Electron Gases in Planar Geometry -- Chapter 7: Electromagnetic Problems Involving Two-Dimensional Electron Gases in Planar Geometry -- Chapter 8: Electrostatic Problems involving Two-Dimensional Electron Gases in Cylindrical Geometry -- Chapter 9: Electromagnetic Problems Involving Two-Dimensional Electron Gases in Cylindrical Geometry -- Chapter 10: Boundary-Value Problems Involving Two-Dimensional Electron Gases in Spherical Geometry.
This book provides a systemic and self-contained guide to the theoretical description of the fundamental properties of plasmonic waves. The field of plasmonics is built on the interaction of electromagnetic radiation and conduction electrons at metallic interfaces or in metallic nanostructures, and so to describe basic plasmonic behavior, boundary-value problems may be formulated and solved using electromagnetic wave theory based on Maxwell's equations and the electrostatic approximation. In preparation, the book begins with the basics of electromagnetic and electrostatic theories, along with a review of the local and spatial nonlocal plasma model of an electron gas. This is followed by clear and detailed boundary value analysis of both classical three-dimensional and novel two-dimensional plasmonic systems in a range of different geometries. With only general electromagnetic theory as a prerequisite, this resulting volume will be a useful entry point to plasmonic theory for students, as well as a convenient reference work for researchers who want to see how the underlying models can be analysed rigorously. .
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