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Electromagnetic Wave Propagation, Radiation and Scattering : From Fundamentals to Applications.
One of the most methodical treatments of electromagnetic wave propagation, radiation, and scattering--including new applications and ideas Presented in two parts, this book takes an analytical approach on the subject and emphasizes new ideas and applications used today. Part one covers fundamentals...
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
John Wiley & Sons, Incorporated,
2017.
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| Edición: | 2nd ed. |
| Colección: | IEEE Press Series on Electromagnetic Wave Theory Ser.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Title Page; Copyright; Dedication; About the Author; Preface; Preface to the First Edition; Acknowledgments; Part I Fundamentals; Chapter 1 Introduction; Chapter 2 Fundamental Field Equations; 2.1 Maxwell's Equations; 2.2 Time-Harmonic Case; 2.3 Constitutive Relations; 2.4 Boundary Conditions; 2.5 Energy Relations and Poynting's Theorem; 2.6 Vector and Scalar Potentials; 2.7 Electric Hertz Vector; 2.8 Duality Principle and Symmetry of Maxwell's Equations; 2.9 Magnetic Hertz Vector; 2.10 Uniqueness Theorem; 2.11 Reciprocity Theorem; 2.12 Acoustic Waves; Problems.
- Chapter 3 Waves in Inhomogeneous and Layered Media3.1 Wave Equation for a Time-Harmonic Case; 3.2 Time-Harmonic Plane-Wave Propagation in Homogeneous Media; 3.3 Polarization; 3.4 Plane-Wave Incidence on a Plane Boundary: Perpendicular Polarization (s Polarization); 3.5 Electric Field Parallel to a Plane of Incidence: Parallel Polarization (p Polarization); 3.6 Fresnel Formula, Brewster's Angle, and Total Reflection; 3.7 Waves in Layered Media; 3.8 Acoustic Reflection and Transmission from a Boundary; 3.9 Complex Waves; 3.10 Trapped Surface Wave (Slow Wave) and Leaky Wave.
- 4.8 Cylindrical Waveguides4.9 TEM Modes; 4.10 Dispersion of a Pulse in a Waveguide; 4.11 Step-Index Optical Fibers; 4.12 Dispersion of Graded-Index Fibers; 4.13 Radial and Azimuthal Waveguides; 4.14 Cavity Resonators; 4.15 Waves in Spherical Structures; 4.16 Spherical Waveguides and Cavities; Problems; Chapter 5 Green's Functions; 5.1 Electric and Magnetic Dipoles in Homogeneous Media; 5.2 Electromagnetic Fields Excited by an Electric Dipole in a Homogeneous Medium; 5.3 Electromagnetic Fields Excited by a Magnetic Dipole in a Homogeneous Medium.
- 5.4 Scalar Green's Function for Closed Regions and Expansion of Green's Function in a Series of Eigenfunctions5.5 Green's Function in Terms of Solutions of the Homogeneous Equation; 5.6 Fourier Transform Method; 5.7 Excitation of a Rectangular Waveguide; 5.8 Excitation of a Conducting Cylinder; 5.9 Excitation of a Conducting Sphere; Problems; Chapter 6 Radiation from Apertures and Beam Waves; 6.1 Huygens' Principle and Extinction Theorem; 6.2 Fields Due to the Surface Field Distribution; 6.3 Kirchhoff Approximation; 6.4 Fresnel and Fraunhofer Diffraction.