Introduction to Complex Mediums for Optics and ElectromagneticsWerner S. Weiglhofer, Akhlesh Lakhtakia SPIE Press, 2003 - 757 páginas Complex-mediums electromagnetics (CME) describes the study of electromagnetic fields in materials with complicated response properties. This truly multidisciplinary field commands the attentions of scientists from physics and optics to electrical and electronic engineering, from chemistry to materials science, to applied mathematics, biophysics, and nanotechnology. This book is a collection of essays to explain complex mediums for optical and electromagnetic applications. All contributors were requested to write with two aims: first, to educate; second, to provide a state-of-the-art review of a particular subtopic. The vast scope of CME exemplified by the actual materials covered in the essays should provide a plethora of opportunities to the novice and the initiated alike. |
Índice
Separating Field and Constitutive Equations in Electromagnetic Theory | 3 |
Constitutive Characterization of Simple and Complex Mediums | 27 |
Isotropic Chiral Materials | 58 |
Point Group Symmetries | 79 |
Nonlinear Optics Using Semiconductor Quantum Wells | 105 |
Organic ThinFilm Photorefractive Materials | 121 |
Optical Energy Harvesting Materials | 141 |
63 | 155 |
Negative PhaseVelocity Mediums | 347 |
Scattering Theory of Photonic Crystals | 365 |
Optical Properties of MetalDielectric Films | 397 |
Nanostructured Thin Films | 421 |
The Past the Present and the Future of Sculptured Thin Films | 447 |
Towards Optoelectronic Applications of Chiral Sculptured Thin Films | 479 |
Electromagnetics of Carbon Nanotubes | 507 |
Randomness in Complex Materials | 549 |
Magnetoelectric Effects in Insulating Magnetic Materials | 167 |
79 | 174 |
80 | 184 |
82 | 193 |
A Critical Review | 197 |
Static and Dynamic Magnetoelasticity | 223 |
Frequency Shifts Induced by a TimeVarying Magnetoplasma Medium | 245 |
Magnetoimpedance in Multilayered Films for Miniature Magnetic Sensors | 267 |
An Introduction | 295 |
Homogenization of Linear and Nonlinear Complex Composite Materials | 317 |
Nonlinear Spatial Structures | 571 |
Statistical Approaches to Scattering | 591 |
Elastic Orthonormal Beams and Localized Fields | 609 |
Polarimeter for Anisotropic Optically Active Materials | 645 |
Generalized Ellipsometry | 677 |
Werner S Weiglhofer | 713 |
Personal Memories of Werner S Weiglhofer | 719 |
Memories of Werner S Weiglhofer | 723 |
| 749 | |
Términos y frases comunes
anisotropy Appl applications approach axis beam bianisotropic chapter chiral coefficients complex components composite consider constitutive coupling crystals defined density depends described determined developed dielectric direction domain effect electric electromagnetic electron elements energy equations example excitation Figure follows frequency function given homogeneous incident intensity interaction isotropic Lakhtakia laser layer Lett light linear magnetic field magnetoelectric materials matrix measurements mechanism medium metal method modes nonlinear normal observed obtained operator optical parameters particles permittivity phase photonic Phys Rev physical plane point group polarization polymer possible presented Press propagation properties reflection relations relative resonance respectively response rotation scattering shown shows solution space spatial spontaneous structure surface symmetry Table tensor theory thin films tion transition unit University values vector W.S. Weiglhofer wave wavelength
Referencias a este libro
Advances in Electromagnetics of Complex Media and Metamaterials Saïd Zouhdi,Ari Sihvola,Mohamed Arsalane Vista previa restringida - 2002 |