Optical Properties of Nanoparticle Systems (PDF)

INTRODUCTION NANOPARTICLE SYSTEMS AND EXPERIMENTAL OPTICAL OBSERVABLES Classification of Nanoparticle Systems Stability of Nanoparticle Systems Extinction, Optical Density and Scattering INTERACTION OF LIGHT WITH MATTER ? THE OPTICAL MATERIAL FUNCTION Classical Description Quantum Mechanical Concepts Tauc - Lorentz- and OJL - Model Kramers Kronig Relations and Penetration Depth FUNDAMENTALS OF LIGHT SCATTERING BY AN OBSTACLE Maxwell's Equations and the Helmholtz Equation Electromagnetic Fields Boundary Conditions Poynting's Law and Cross Sections Far-Field and Near-Field The Incident Electromagnetic Wave Rayleigh's Approximation for Small Particles -The Dipole Approximation Rayleigh-Debye-Gans Approximation for Vanishing Optical Contrast MIE'S THEORY FOR SINGLE SPHERICAL PARTICLES Electromagnetic Fields and Boundary Conditions Cross Sections, Scattering Intensities and Related Quantities Resonances Optical Contrast Near-Field APPLICATION OF MIE'S THEORY Drude - Metal Particles Noble Metal Particles Catalyst Metal Particles Magnetic Metal Particles Rare Earth Metal Particles Summary On Metal Particles Semi-Metal and Semiconductor Particles Carbonaceous Particles Absorbing Oxide Particles Nonabsorbing Oxide Particles Particles With Phonon Polaritons Miscellaneous Nanoparticles EXTENSIONS OF MIE'S THEORY Coated Spheres Supported Nanoparticles Charged Nanoparticles Anisotropic Materials Absorbing Embedding Media Inhomogeneous Incident Waves LIMITATIONS OF MIE'S THEORY - SIZE AND QUANTUM SIZE EFFECTS IN VERY SMALL NANOPARTICLES Boundary Conditions - The Spill-Out Effect Free Path Effect in Nanoparticles Chemical Interface Damping - Dynamic Charge Transfer BEYOND MIE'S THEORY I - NONSPHERICAL PARTICLES Spheroids and Ellipsoids Cylinder Cubic Particle Discrete Dipole Approximation T-Matrix Method BEYOND MIE'S THEORY II - THE GENERALIZED MIE THEORY Derivation of the Generalized Mie Theory Resonances Common Results Extensions of the Generalized Mie Theory THE GENERALIZED MIE

Dr. Michael Quinten works as Chief Technical Coordinator at FRT GmbH in Bergisch Gladbach, Germany. Having obtained his diploma degree and Ph. D. in physics (1989) at the University of Saarland, Saarbruecken, Germany, he joined the Technical University RWTH Aachen in 1990. He then spent four years at several universities in Graz, Austria, Chemnitz, Aachen, Saarbruecken and Bochum, Germany. During this academic period from 1983 to 2000, he authored 50 scientific publications with topics in optical properties of nanoparticles, nanoparticle materials and aerosols. In 2001 he joined the ETA-Optik GmbH, Germany, where he first worked in research and development of integrated optics components and later became product manager in the Colour and Coatings Division. In 2007 he moved to FRT GmbH where he is responsible for the optical sensor technology division.

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