Electromagnetic wave propagation, radiation, and scattering
Fundamentals. Introduction --
Fundamental Field Equations --
Waves in Inhomogeneous and Layered Media --
Waveguides and Cavities --
Green's Functions --
Radiation from Apertures and Beam Waves --
Periodic Structures and Coupled-Mode Theory --
Dispersion and Anisotropic Media --
Antennas, Apertures, and Arrays --
Scattering of Waves by Conducting and Dielectric Objects --
Waves in Cylindrical Structures, Spheres, and Wedges --
Scattering by Complex Objects --
Geometric Theory of Diffraction and Low-frequency Techniques --
Planar Layers, Strip Lines, Patches, and Apertures --
Radiation From A Dipole On The Conducting Earth --
Applications. Inverse Scattering --
Radiometry, Noise Temperature, and Interferometry --
Stochastic Wave Theories --
Geophysical Remote Sensing and Imaging --
Biomedical EM, Optics, and Ultrasound --
Waves in Metamaterials and Plasmon --
Time-Reversal Imaging --
Scattering by Turbulence, Particles, Diffuse Medium, and Rough Surfaces --
Coherence in Multiple Scattering and Diagram Method --
Solitons and Optical Fibers --
Porous Media, Permittivity, Fluid Permeability of Shales and Seismic Coda --
References --
IEEE Press Series on Electromagneticwave Theory.