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nanohappyyou金虫 (正式写手)
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Nanophotonics 好书! 谁有?
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Paras N. Prasad Nanophotonics Wiley-Interscience 这本书,从目录看的确不错! 这里的相当一部分人对纳米光子学非常感兴趣, 有的朋友,你何不帮大家一把,让更多的纳米朋友从中受益, 希望能发给我 happyyou@163.com thank you |
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nanohappyyou
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Preface. 1. Introduction. 1.1 Nanophotonics—An Exciting Frontier in Nanotechnology. 1.2 Nanophotonics at a Glance. 1.3 Multidisciplinary Education, Training, and Research. 1.4. Rationale for this Book. 1.5 Opportunities for Basic Research and Development of New Technologies. 2. Foundations for Nanophotonics. 2.1 Photons and Electrons: Similarities and Differences. 2.1.1 Free-Space Propagation. 2.1.2 Confinement of Photons and Electrons. 2.1.3 Propagation Through a Classically Forbidden Zone: Tunneling. 2.1.4 Localization Under a Periodic Potential: Bandgap. 2.1.5 Cooperative Effects for Photons and Electrons. 2.2 Nanoscale Optical Interactions. 2.2.1 Axial Nanoscopic Localization. 2.2.2 Lateral Nanoscopic Localization. 2.3 Nanoscale Confinement of Electronic Interactions. 2.3.1 Quantum Confinement Effects. 2.3.2 Nanoscopic Interaction Dynamics. 2.3.3 New Cooperative Transitions. 2.3.4 Nanoscale Electronic Energy Transfer. 2.3.5 Cooperative Emission. 2.4 Highlights of the Chapter. 3. Near-Field Interaction and Microscopy. 3.1 Near-Field Optics. 3.2 Theoretical Modeling of Near-Field Nanoscopic Interactions. 3.3 Near-Field Microscopy. 3.4 Examples of Near-Field Studies. 3.4.1 Study of Quantum Dots. 3.4.2 Single-Molecule Spectroscopy. 3.4.3 Study of Nonlinear Optical Processes. 3.5 Apertureless Near-Field Spectroscopy and Microscopy. 3.6 Nanoscale Enhancement of Optical Interactions. 3.7 Time- and Space-Resolved Studies of Nanoscale Dynamic 3.8 Commercially Available Sources for Near-Field Microscope. 3.9 Highlights of the Chapter. 4. Quantum-Confined Materials. 4.1 Inorganic Semiconductors. 4.1.2 Quantum Wires. 4.1.3 Quantum Dots. www.nanotoday. 4.1.4 Quantum Rings. 4.2 Manifestations of Quantum Confinement. 4.2.1 Optical Properties. 4.2.3 Nonlinear Optical Properties. 4.2.4 Quantum-Confined Stark Effect. 4.3 Dielectric Confinement Effect. 4.4 Superlattices. 4.5 Core-Shell Quantum Dots and Quantum Dot-Quantum Wells. 4.6 Quantum-Confined Structures as Lasing Media. 4.7 Organic Quantum-Confined Structures. 4.8 Highlights of the Chapter. 5. Plasmonics. 5.1 Metallic Nanoparticles and Nanorods. 5.2 Metallic Nanoshells. 5.3 Local Field Enhancement. 5.4 Subwavelength Aperture Plasmonics. 5.5 Plasmonic Wave Guiding. 5.6 Applications of Metallic Nanostructures. 5.7 Radiative Decay Engineering. 5.8 Highlights of the Chapter. 6. Nanocontrol of Excitation Dynamics. 6.1 Nanostructure and Excited States. 6.2 Rare-Earth Doped Nanostructures. 6.3 Up-Converting Nanophores. 6.4 Photon Avalanche. 6.5 Quantum Cutting. 6.6 Site Isolating Nanoparticles. 7. Growth and Characterization of Nanomaterials. 8. Nanostructured Molecular Architectures. 9. Photonic Crystals. 9.1 Basics Concepts. 9.2 Theoretical Modeling of Photonic Crystals. 9.3 Features of Photonic Crystals. 9.4 Methods of Fabrication. 9.5 Photonic Crystal Optical Circuitry. 9.6 Nonlinear Photonic Crystals. 9.7 Photonic Crystal Fibers (PCF). 9.8 Photonic Crystals and Optical Communications. 9.9 Photonic Crystal Sensors. 9.10 Highlights of the Chapter. 10. Nanocomposites. 10.1 Nanocomposites as Photonic Media. 10.2 Nanocomposite Waveguides. 10.3 Random Lasers: Laser Paints. 10.4 Local Field Enhancement. 10.5 Multiphasic Nanocomposites. 10.6 Nanocomposites for Optoelectronics. 10.7 Polymer-Dispersed Liquid Crystals (PDLC). 10.8 Nanocomposite Metamaterials. 10.9 Highlights of the Chapter. 11. Nanolithography. 12. Biomaterials and Nanophotonics. |
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3楼2006-06-29 22:34:03