Description
Metal Nanostructures for Photonics presents updates on the development of materials with enhanced optical properties and the demand for novel metal-dielectric nanocomposites and nanostructured materials. The book covers various aspects of metal-dielectric nanocomposites and metallic-nanostructures and illustrates techniques used to prepare and characterize materials and their physical properties. It focuses on three main sections, nanocomposites with enhanced luminescence properties due to contributions of metal nanoparticles hosted in photonic glasses, near and far-field optical phenomena, and the optical response of single nanoparticles that reveal quantum phenomena in the nanoscale, amongst other topics.This book will serve as an important research reference for materials scientists who want to learn more on how a range of metallic nanostructured materials are used in photonics.- Sets out the properties of a range of metal-dielectric nanostructures and nanocomposites, along with the use cases for each in photonics- Discusses the pros and cons of using different metallic nanostructures for different photonic applications- Includes case studies that illustrate how metallic nanostructures have successfully been applied in photonics
Table of Contents
Section I: Influence of metallic nanoparticles on luminescence of ions in solids1. Metal-dielectric composites based on germanate and tellurite glasses 2. Enhanced luminescence due to plasmonic coupling by metal nanoparticlesSection II: Near and far-field optical phenomena associated and/or influenced by metallic nanoparticles3. Nonlinear optics with metal-dielectric nanocomposites4. High-order nonlinearities of metal-colloids 5. Optical Response of Nanostructures: from Pure to Alloyed Metals6. Second harmonic generation with metallic nanoparticles 7. Plasmonic nanostructures for linear and non-linear quantum elementsSection III: Photonic materials and devices with improved performance influenced by metallic nanoparticles8. Fabrication of metal dielectric nanocomposites by ion-implantation and characterization by nonlinear optics techniques 9. Nanostructuring solar cells using metallic nanoparticles 10. Plasmonics for the characterization of metal organic films and nanoparticles 11. Biopolymers-metal composite 12. Pedestal doped waveguides for infrared light amplification
