本書是影印英文版物理學專著,原書由世界科技出版社于2007年出版。本書對近年來該領域的發展做了系統介紹。本書首先綜述了等離子體激元結構和超穎材料的基礎理論,以及它們在傳導和控制光方面的應用。接著,本書也給出了拉曼信號表面增強的一般理論,以及在金屬—介質材料中的非線性光學現象的理論。本書適合材料科學、光學、凝聚態物理學,以及其他相關專業的研究人員和研究生作為參考,同時也是所有對這一令人著迷的新材料感興趣的讀者了解這一領域的很好的途徑。
Preface1. Introduction 1.1 Surface Plasmon Resonance 1.2 Percolation Threshold: Singularities in Metal-dielectricComposites2. Conducting Stick Composites and Left Handed Metamaterials 2.1 Metamaterial 2.2 Conductivity and Dielectric Cotant: Effective Medium Theory 2.3 High-frequency Respoe 2.3.1 Scattering of electromagnetic wave by conducting stick 2.3.2 High-frequency effective dielectric function 2.4 Giant Enhancements of Local Electric Fields 2.5 Optical Magnetism, Left-handed Optical Materials andSuperresolution 2.5.1 Analytical theory of magnetic plasmon resonances 2.5.2 Numerical simulatio of two-dimeional nanowire structures 2.5.3 Capacitance and inductance of two parallel wires 2.6 Planar Nanowire Composites3. Semicontinuous Metal Films 3.1 Introduction 3.2 Giant Field Fluctuatio 3.2.1 Lattice model 3.2.2 Numerical method 3.2.3 Field distributio on semicontinuous metal films 3.3 Localization of Surface Plasmo 3.3.1 Localization length and average inteity of localelectricfield 3.3.2 High-order moments of local electric fields 3.3.3 Properties of the localized eigenmodes 3.3.4 Scaling theory of giant field fluctuatio 3.4 Anomalous Light Scattering from Semicontinuous Metal Films 3.4.1 Rayleigh scattering 3.4.2 Scaling properties of correlation function 3.5 Surface Enhanced Raman Scattering (SERS) 3.6 Giant Enhancements of Optical Nonlinearities 3.7 Percolation-enhanced Nonlinear Scattering: High HarmonicGeneration4. Optical Properties of Metal-dielectric Fih: Beyond QuasistaticApproximation 4.1 Generalized Ohm's Law (GOL) and Basic Equatio 4.2 Tramittance, Reflectance, and Absorptance 4.3 Numerical Simulatio of Local Electric and Magnetic Fields 4.4 Spatial Moments of Local Electric and Magnetic Fields 4.5 Extraordinary Optical Tramittance (EOT) 4.5.1 Resonant tramittance 4.5.2 Light-induced and light-controlled tramittance 4.5.3 Discussion5. Electromagnetic Properties of Metal-dielectric Crystals 5.1 Metal-dielectric Composites 5.2 Electromagnetic Crystals 5.2.1 Cubic lattice of metal spheres 5.2.2 A wire-mesh electromagnetic crystalBibliography
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