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Optical Properties of Metallic Nanoparticles = Basic Principles and Simulation /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Optical Properties of Metallic Nanoparticles/ by Andreas Trügler.
Reminder of title:	Basic Principles and Simulation /
Author:	Trügler, Andreas.
Description:	XIX, 217 p. 100 illus., 98 illus. in color.online resource. :
Contained By:	Springer Nature eBook
Subject:	Lasers. -
Online resource:	https://doi.org/10.1007/978-3-319-25074-8
ISBN:	9783319250748

Optical Properties of Metallic Nanoparticles = Basic Principles and Simulation /
Trügler, Andreas.

Optical Properties of Metallic NanoparticlesBasic Principles and Simulation /[electronic resource] :by Andreas Trügler. - 1st ed. 2016. - XIX, 217 p. 100 illus., 98 illus. in color.online resource. - Springer Series in Materials Science,2320933-033X ;. - Springer Series in Materials Science,200.

Part I: Introduction and Basic principles -- Prologue -- The world of plasmons -- Theory -- Part II: Simulation: Modeling the optical response of metallic nanoparticles -- Part III: Implementations and applications.- Imaging of surface plasmons -- Influence of surface roughness -- Nonlinear optical effects of plasmonic nanoparticles -- Nonlocal response -- Metamaterials.- Outlook -- Part IV: Supplement -- Appendix - Utilities -- Appendix - MATLAB script for Mie solution.

This book introduces the fascinating world of plasmonics and physics at the nanoscale, with a focus on simulations and the theoretical aspects of optics and nanotechnology. A research field with numerous applications, plasmonics bridges the gap between the micrometer length scale of light and the secrets of the nanoworld. This is achieved by binding light to charge density oscillations of metallic nanostructures, so-called surface plasmons, which allow electromagnetic radiation to be focussed down to spots as small as a few nanometers. The book is a snapshot of recent and ongoing research and at the same time outlines our present understanding of the optical properties of metallic nanoparticles, ranging from the tunability of plasmonic resonances to the ultrafast dynamics of light-matter interaction. Beginning with a gentle introduction that highlights the basics of plasmonic interactions and plasmon imaging, the author then presents a suitable theoretical framework for the description of metallic nanostructures. This model based on this framework is first solved analytically for simple systems, and subsequently through numerical simulations for more general cases where, for example, surface roughness, nonlinear and nonlocal effects or metamaterials are investigated.

ISBN: 9783319250748

Standard No.: 10.1007/978-3-319-25074-8doiSubjects--Topical Terms:

557748
Lasers.

LC Class. No.: TA1671-1707

Dewey Class. No.: 621.36

Optical Properties of Metallic Nanoparticles = Basic Principles and Simulation /
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520 $a This book introduces the fascinating world of plasmonics and physics at the nanoscale, with a focus on simulations and the theoretical aspects of optics and nanotechnology. A research field with numerous applications, plasmonics bridges the gap between the micrometer length scale of light and the secrets of the nanoworld. This is achieved by binding light to charge density oscillations of metallic nanostructures, so-called surface plasmons, which allow electromagnetic radiation to be focussed down to spots as small as a few nanometers. The book is a snapshot of recent and ongoing research and at the same time outlines our present understanding of the optical properties of metallic nanoparticles, ranging from the tunability of plasmonic resonances to the ultrafast dynamics of light-matter interaction. Beginning with a gentle introduction that highlights the basics of plasmonic interactions and plasmon imaging, the author then presents a suitable theoretical framework for the description of metallic nanostructures. This model based on this framework is first solved analytically for simple systems, and subsequently through numerical simulations for more general cases where, for example, surface roughness, nonlinear and nonlocal effects or metamaterials are investigated.
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