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●Dedication
List of Figures
Foreword
Preface
Acknowledgments
Part Ⅰ Fundamentals of Plasmonics
Introduction
1.ELECTROMAGNETICS OF METALS
1.1Maxwell's Equations and Electromagneric Wave Propagation
1.2.The Dielecric Funaion of the Free Elearon Gas
1.3.The Dispersion of the Free Electron Gas and Volume Plasmons
1.4.Real Meials and Interband Transitions
1.5.The Energy of the Electromagnetic Field in Metals
2.SURFACE PLASMON POLARITONS AT METAL／INSULATOR INTERFACES
2.1.The Wave Equation
2.2.Surface Plasmon Polaritons at a Single Interface
2.3. ltilayer Systems
2.4.Energy Confinement and the Effective Mode Length
3.EXCITATION OF SURFACE PLASMON POLARITONSAT PLANAR INTERFACES
3.1.Excitation upon Charged Particle Impact
3.2.Prism Coupling
3.3.Grating Coupling
3.4.Excitation Using Highly Focused Optical Beams
3.5.Near—Field Excitation
3.6.Coupling Schemes Suitable for Integration with Conventional Photonic Elements
4.IMAGING SURFACE PLASMON POLARITON PROPAGATION
4.1.Near—Field Microscopy
4.2.Fluorescence lmaging
4.3.Leakage Radiation
4.4.Scattered Light Imaging
5.LOCALIZED SURFACE PLASMONS
5.1.Normal Modes of Sub—Wavelength Metal Parucles
5.2.Mie Theory
5.3.Beyond the Quasi—Static Approximation and Plasmon Lifetime
5.4.Real Particles：Observations of Panicle Plasmons
5.5.Coupling Between Localized Plasmons
5.6.Void Plasmons and Metallic Nanoshells
5.7.Localized Plasmons and Gain Media
6.ELECTROMAGNETIC SURFACE MODES AT LOW FREQUENCIES
6.1.Surface Plasmon Polaritons at THz Frequencies
6.2.Designer Surface Plasmon Polaritons on Corrugated Surfaces
6.3.Surface Phonon Polaritons
Pan ⅡApplications
Introduction
7.PLASMON WAVEGUIDES
7.1.Planar Elements for Surface Plasmon Polariton Propagation
7.2.Surface Plasmon Polariton Band Gap Structures
7.3.Surface Plasmon Polariton Propagation Along Metal Stripes
7.4.Metal Nanowires and Conical Tapers for High—Confinement Guiding and Focusing
7.5.Localized Modes in Gaps and Grooves
7.6.Metal Nanoparticle Waveguides
7.7.Overcoming Losses Using Gain Media
8.TRANSMISSION OF RADIATION THROUGH APERTURES AND FILMS
8.1.Theory of Diffraction by Sub—Wavelength Apertures
8.2.Extraordinary Transmission Through Suh—Wavelength Apertures
8.3.Directional Emission Via Exit Surface Pauerning
8.4.Localized Surface Plasmons and Light Transmission Through Single Apertures
8.5.Emerging Applications of Extraordinary Transmission
8.6.Transmission of Light Through a Film Without Apertures
9.ENHANCEMENT OF EMISSIVE PROCESSES AND NONLINEARITES
9.1.SERS Fundamentals
9.2.SERS in the Picure of Cavity Field Enhancement
9.3.SERS Geometries
9.4.Enhancement of Fluorescence
9.5.Luminescence of Metal Nanostructures
9.6.Enhancemem of Nonlinear Processes
10.SPECTROSCOPY AND SENSING
10.1.Single—Particle Spectroscopy
10.2.Surface—Plasmon—Polariton—Based Sensors
11.METAMATERIALS AND IMAGING WITH SURFACE PLASMON POLARITONS
11.1 Meiamaterials and Negative Index at Optical Frequencies
11.2.The Perfect Lens，Imaging and Lithography
12.CONCLUDING REMARKS
References
Index