Electromagnetic Waves, 2/e (Hardcover)

Carlo G. Someda

Electromagnetic Waves, 2/e (Hardcover)
  • 出版商: CRC
  • 出版日期: 2006-01-13
  • 售價: $1,650
  • 貴賓價: 9.8$1,617
  • 語言: 英文
  • 頁數: 600
  • 裝訂: Hardcover
  • ISBN: 0849395895
  • ISBN-13: 9780849395895

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Description   

  • Provides broad, integrated coverage of subjects not usually covered in a single reference
  • Links theory to practical applications using many illustrative examples and approximately 300 problems
  • Includes new and expanded definitions, new and updated references, and a completely rewritten appendix
  • Covers important topics such as guided propagation and antenna theory

    Adapted from a successful and thoroughly field-tested Italian text, the first edition of Electromagnetic Waves was very well received. Its broad, integrated coverage of electromagnetic waves and their applications forms the cornerstone on which the author based this second edition. Working from Maxwell's equations to applications in optical communications and photonics, Electromagnetic Waves, Second Edition forges a link between basic physics and real-life problems in wave propagation and radiation.

    Accomplished researcher and educator Carlo G. Someda uses a modern approach to the subject. Unlike other books in the field, it surveys all major areas of electromagnetic waves in a single treatment. The book begins with a detailed treatment of the mathematics of Maxwell's equations. It follows with a discussion of polarization, delves into propagation in various media, devotes four chapters to guided propagation, links the concepts to practical applications, and concludes with radiation, diffraction, coherence, and radiation statistics. This edition features many new and reworked problems, updated references and suggestions for further reading, a completely revised appendix on Bessel functions, and new definitions such as antenna effective height.

    Illustrating the concepts with examples in every chapter, Electromagnetic Waves, Second Edition is an ideal introduction for those new to the field as well as a convenient reference for seasoned professionals.
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    Table of Contents

    BASIC EQUATIONS FOR ELECTROMAGNETIC FIELDS
    Introduction: Experimental Laws
    Maxwell's Equations and the Charge Continuity Equation
    Constitutive Relations
    Imposed Currents
    Divergence Equations
    Continuity Conditions
    The Wave Equation. The Helmholtz Equation
    Magnetic Vector Potential
    Fitzgerald Electric Vector Potential
    Hertz Vector Potential
    Further Applications and Suggested Reading
    References
    POLARIZATION
    Introduction
    Steinmetz Representation of Time-Harmonic Vectors
    Parallel and Orthogonal Complex Vectors
    Properties of Time-Harmonic Vectors
    Properties of the Complex Vectors
    Linear Polarization Ratio
    Circular Polarization Ratio
    Stokes Parameters
    The Poincar?Sphere
    Evolution of Polarization in a Linear Medium: Jones Matrix
    Further Applications and Suggested Reading
    References
    GENERAL THEOREMS
    Introduction
    Poynting's Theorem. Wave Impedance
    Uniqueness Theorem
    Reciprocity Theorem
    Equivalence Theorem
    Induction Theorem
    Duality Theorem
    TE-TM Field Decomposition Theorem
    Spatial Symmetries. Reflection Operators
    Further Applications and Suggested Reading
    References
    PLANE WAVES IN ISOTROPIC MEDIA
    Separability of Variables in the Homogeneous Helmholtz Equation
    Solution of the Homogeneous Helmholtz Equation in Cartesian Coordinates
    Plane Waves: Terminology and Classification
    Traveling Waves. Phase Velocity
    Standing Waves
    Poynting Vector and Wave Impedance
    Completeness of Plane Waves
    Reflection and Refraction of Plane Waves
    Fresnel Formulas
    Reflection in Multilayer Structures
    Total Reflection
    Reflection on the Surface of a Good Conductor
    Further Applications and Suggested Reading
    References
    PLANE WAVE PACKETS AND BEAMS
    Modulated Waves. Group Velocity
    Dispersion
    The Scalar Approximation
    The Equations of Geometrical Optics
    Geometrical Optics: Electromagnetic Implications
    Examples of Ray Tracing in Radio Propagation and in Optics
    The WKBJ Method
    Further Comments on the WKBJ Method
    Gaussian Beams
    Hermite-Gauss and Laguerre-Gauss Modes
    Reflection and Refraction of Gaussian Beams
    On the Completeness of a Series
    Further Comments on Rays and Beams
    Further Applications and Suggested Reading
    References
    PLANE WAVES IN ANISOTROPIC MEDIA
    General Properties of Anisotropic Media
    Wave Equations and Potentials in Anisotropic Media
    Birefringent Media
    Fresnel's Equation of Wave Normals
    An Application: Phase Matching of Two Waves
    Gyrotropic Media
    The Appleton-Hartree Formula
    An Example of Permittivity Dyadic
    Second Example of Permeability Dyadic
    Faraday Rotation
    Further Applications and Suggested Reading
    References
    WAVEGUIDES WITH CONDUCTING WALLS
    Introduction
    Homogeneously Filled Cylindrical Structures: Simplified Proof of the TE-TM Decomposition Theorem
    Waveguides with Ideal Conducting Walls
    Transmission Modes of Lossless Cylindrical Structures
    Mode Orthogonality
    Some Remarks on Completeness
    Rectangular Waveguides
    Circular Waveguides and Coaxial Cables
    Waveguides with Nonideal Walls
    On Wall Impedances
    Hybrid Modes
    Further Applications and Suggested Reading
    References
    WAVES ON TRANSMISSION LINES
    Introduction
    Uniform Transmission Lines
    Impedance Transformation Along a Transmission Line
    Lossless Transmission Lines
    Low-Loss Transmission Lines
    Partially Standing Waves
    The Smith Chart
    Remote Measurement of the Load Impedance
    Impedance Matching
    Transmission-Line Equations: An Alternative Derivation
    TEM and Quasi-TEM Propagation in Planar Lines
    The Coupled-Mode Equations
    Further Applications and Suggested Reading
    References
    RESONANT CAVITIES
    Introduction
    Separable Coordinate Systems in Three Dimensions
    Completeness of Resonator Modes
    Mode Orthogonality in a Perfect Resonator
    Lossless Cylindrical Cavities
    Simple Examples
    Lossy Resonators: Perturbation Analysis. Intrinsic Q-Factor
    Resonators Coupled to External Loads. Loaded Q-Factor
    Open Resonators
    Stability of Open Resonators
    Q-Factor of an Open Resonator
    Further Applications and Suggested Reading
    References
    DIELECTRIC WAVEGUIDES
    Introduction
    Waves Guided by a Surface of Discontinuity: The Characteristic Equation
    Guided Modes of a Slab Waveguide
    Radiation Modes of a Slab Waveguide
    The Cylindrical Rod: Exact Modes
    Modal Cut-Off in the Cylindrical Rod
    Weakly Guiding Rods: The LP Modes
    Dispersion in Dielectric Waveguides
    Graded-Index Waveguides
    The Alpha Profiles: An Important Class of Multimode Graded-Index Fibers
    Attenuation in Optical Fibers
    Further Applications and Suggested Reading
    References
    RETARDED POTENTIALS
    Introduction
    Green's Functions for the Scalar Helmholtz Equation
    Lorentz-Gauge Vector Potentials in a Homogeneous Medium
    Field Vectors in Terms of Dyadic Green's Functions
    Inhomogeneous Media: Polarization Currents
    Time-Domain Interpretation of Green's Functions
    Green's Function Expansion Into Orthogonal Eigenfunctions
    An Example: Field in a Rectangular Box
    Spherical Harmonics
    Multipole Expansion
    An Introduction to Cylindrical Harmonics
    Further Applications and Suggested Reading
    References
    FUNDAMENTALS OF ANTENNA THEORY
    Introduction
    Equivalent Dipole Moment of an Extended Source
    Far-Field Approximations
    First Example: Short Electric-Current Element
    Characterization of Antennas
    Behavior of Receiving Antennas. Reciprocity
    Examples
    Antenna Arrays
    Broad-Side and End-Fire Arrays
    Further Applications and Suggested Reading
    References
    DIFFRACTION
    Introduction
    The Diffraction Integral: The Vector Formulation
    Illumination Conditions. Babinet's Principle
    The Scalar Theory of Diffraction
    Diffraction Formulas and Rayleigh-Sommerfeld
    The Fresnel Diffraction Region
    The Fraunhofer Diffraction Region
    Examples
    The Field Near a Focus: First Example of Fresnel Diffraction
    Diffraction from a Straight Edge: Second Example of Fresnel Diffraction
    A Short Note on the Geometrical Theory of Diffraction
    Further Applications and Suggested Reading
    References
    AN INTRODUCTION TO THE THEORY OF COHERENCE
    Background and Purpose of the Chapter
    The Analytical Signal
    Complex Degree of Coherence
    Temporal Coherence of a Source
    Spatial Coherence of a Source
    Higher-Order Coherence: An Introduction
    An Introduction to Photocount Distributions
    Modal Noise in Optical-Fiber Transmission Systems: A Short Outline
    Further Applications and Suggested Reading
    References
    APPENDIX A: VECTOR CALCULUS: DEFINITIONS AND FUNDAMENTAL THEOREMS
    APPENDIX B: VECTOR DIFFERENTIAL OPERATORS IN FREQUENTLY USED REFERENCE SYSTEMS
    APPENDIX C: VECTOR IDENTITIES
    APPENDIX D: FUNDAMENTALS ON BESSEL FUNCTIONS
    Bessel, Neumann and Hankel Functions
    Modified Bessel Functions
    Bessel Function Formulas
    REFERENCES
    FURTHER SUGGESTED READING
    INDEX

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