Optical properties of nanoparticle systems : Mie and beyond

Filling the gap for a description of the optical properties of small particles with sizes less than 1000 nm and to provide a comprehensive overview on the spectral behavior of nanoparticulate matter, this is the most up-to-date reference on the optical physics of nanoparticle systems. The author, an expert in the field with both academic and industrial experience, concentrates on the linear optical properties, elastic light scattering and absorption of single nanoparticles and on the reflectance and transmittance of nanoparticle matter. From the contents: Nanoparticle Systems and Experimental Optical Observables Interaction of Light with Matter: The Optical Material Function Fundamentals of Light Scattering by an Obstacle Mie's Theory for Single Spherical Particles Application of Mie's Theory. Extensions of Mie's Theory. Limitations of Mei's Theory: Size and Quantum Size Effects in Very Small Nanoparticles Beyond Mie's Theory I: Nonspherical Particles Beyond Mie's Theory II: The Generalized Mie Theory The Generalized Mie Theory applied to Different Systems Densely Packed Systems. Nearfield and SERS Effective Medium Theories

1. Introduction 2. Nanoparticle Systems and Experimental Optical Observables 3. Interaction of Light with Matter: The Optical Material Function 4. Fundamentals of Light Scattering by an Obstacle 5. Mie's Theory for Single Spherical Particles 6. Application of Mie's Theory 7. Extensions of Mie's Theory 8. Limitations of Mie's Theory: Size and Quantum Size Effects in Very Small Nanoparticles 9. Beyond Mie's Theory I: Nonspherical Particles 10. Beyond Mie's Theory II: The Generalized Mie Theory 11. The Generalized Mie Theory applied to Different Systems 12. Densely Packed Systems 13. Nearfield and SERS 14. Effective Medium Theories