Electromagnetic fields in unconventional materials and structures
This book will shape the course of electromagnetics research for decades to come. Fourteen leading researchers from five countries reveal their latest research results in detail and review parallel developments. The topics discussed, though unconventional today, are destined to attract great attention as shrinking device sizes make electromagnetic effects ever more important.
These topics include the rotation of polarization of electric waves by a twisted structure; homogenization of linear bianistotropic composite materials; novel free-space techniques to characterize complex mediums; sculptured thin films; electrodynamic properties of carbon nanotubes; and more.
Electromagnetic Fields in Unconventional Materials and Structures:
* Focuses on geometry in both large and small scales
* Provides a blueprint for electromagnetics research at the turn of the century
* Features new results, comments, and prognostications on 21st century research
* Includes more than 150 illustrations as well as hundreds of charts, tables, and references
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Scalar Hertz Potentials for Linear Bianisotropic Mediums
Novel FreeSpace Techniques to Characterize
A MiniReview on Isotropic Chiral Mediums
7 other sections not shown
amplitude analysis anisotropic Appl Phys axial beam bianisotropic medium boundary conditions Bragg calculated carbon nanotubes circular cladding coefficients components composite medium constitutive dyadics constitutive parameters core coupling cross section cutoff device dielectric differential equations diffraction directional coupler dispersion equation effect eigenwaves electric field electromagnetic field Electron Lett filters frequency grating Green function gyrotropic half-coupler helical helix homogeneous host medium incident inclusions interface isotropic chiral medium Lakhtakia laser linear magnetic matrix Maxwell Maxwell equations metal envelope Microwave Opt Technol modes multilayered nonhomogeneous normal obtained Opt Technol Lett optical fiber optical waveguides Phys Rev planar waveguide plane wave polarization PR material propagation constant properties pseudoinverse radiation reflection refractive index region relative permittivity respectively scalar Hertz potentials shown in Figure single-mode slab SNTFs solution spatial STFs structure techniques tensor TFHBM layer thickness thin films transmission transverse uniaxial values vector W.S. Weiglhofer wavelength wavenumbers