Modern Introduction to Surface Plasmons: Theory, Mathematica Modeling, and ApplicationsCambridge University Press, 06.05.2010 - 371 Seiten Introducing graduate students in physics, optics, materials science and electrical engineering to surface plasmons, this book also covers guided modes at planar interfaces of metamaterials with negative refractive index. The physics of localized and propagating surface plasmons, on planar films, gratings, nanowires and nanoparticles, is developed using both analytical and numerical techniques. Guided modes at the interfaces between materials with any combination of positive or negative permittivity and permeability are analyzed in a systematic manner. Applications of surface plasmon physics are described, including near-field transducers in heat-assisted magnetic recording and biosensors. Resources at www.cambridge.org/9780521767170 include Mathematica code to generate figures from the book, color versions of many figures, and extended discussion of topics such as vector diffraction theory. |
Inhalt
1 Introduction | 1 |
2 Electromagnetics of planar surface waves | 4 |
3 Singleinterface modes in the microwave regime | 56 |
4 Singleinterface lossless modes in epsilonrprimeμrprime parameter space | 80 |
5 Doubleinterface lossless modes in epsilonrprimeμrprime parameter space | 94 |
6 Singleinterface surface plasmons | 121 |
7 Doubleinterface surface plasmons in symmetric guides | 141 |
8 Quasionedimensional surface plasmons | 164 |
9 Localized surface plasmons | 201 |
10 Techniques for exciting surface plasmons | 256 |
11 Plasmonic materials | 283 |
12 Applications | 305 |
Appendix A | 349 |
| 369 | |
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Modern Introduction to Surface Plasmons: Theory, Mathematica Modeling, and ... Dror Sarid,William A. Challener Eingeschränkte Leseprobe - 2010 |
Häufige Begriffe und Wortgruppen
angle of incidence chapter charge density cylindrical decay diameter dielectric constant dipole disk dispersion curve DNG-type double-interface structure electric and magnetic electric field electromagnetic energy ENG-type excited extinction coefficient FDTD field components field intensity frequency gold grating imaginary incident field interface Kretschmann configuration Lett lossless lossy LR mode magnetic fields Mathematica simulation medium metal film metamaterial Mie theory mode equation nanoparticles nanoshells nanowire near-field negative optical Otto configuration particle peak permittivity photon Phys plane wave polaritons polarized power flow Poynting vector prism propagation constant propagation distance radius reflectivity refractive index Reprinted with permission respectively scattering shown in Fig silver single-interface structure solid line solution SP modes SP propagation SP resonance sphere substrate and cover surface charge surface plasmons thickness TM mode wave vector waveguide wavelength width z-direction μο