Contents -- Chapter 1 Classical Electrodynamics -- 1.1 Introductory Comments -- 1.2 Space and Time Dependence upon Speed -- 1.3 Four-Dimensional Space Time -- 1.4 Newton's Laws -- 1.5 Electrodynamics -- 1.6 The Field Equations -- 1.7 Accelerating Charges -- 1.8 The Electromagnetic Stress Tensor -- 1.9 Kinematic Properties of Fields -- 1.10 A Lemma for Calculation of Electromagnetic Fields -- 1.11 The Scalar Differential Equation -- 1.12 Radiation Fields in Spherical Coordinates -- 1.13 Electromagnetic Fields in a Box -- 1.14 From Energy to Electric Fields -- References -- Chapter 2 Selected Boundary Value Problems -- 2.1 Traveling Waves -- 2.2 Scattering of a Plane Wave by a Sphere -- 2.3 Lossless Spherical Scatterers -- 2.4 Biconical Transmitting Antennas, General Comments -- 2.5 Fields -- 2.6 TEM Mode -- 2.7 Boundary Conditions -- 2.8 The Defining Integral Equations -- 2.9 Solution of the Biconical Antenna Problem -- 2.10 Power -- 2.11 Biconical Receiving Antennas -- 2.12 Incoming TE Fields -- 2.13 Incoming TM Fields -- 2.14 Exterior Fields, Powers, and Forces -- 2.15 The Cross-Sections -- 2.16 General Comments -- 2.17 Fields of Receiving Antennas -- 2.18 Boundary Conditions -- 2.19 Zero Degree Solution -- 2.20 Non-Zero Degree Solutions -- 2.21 Surface Current Densities -- 2.22 Power -- References -- Chapter 3 Antenna Q -- 3.1 Instantaneous and Complex Power in Circuits -- 3.2 Instantaneous and Complex Power in Fields -- 3.3 Time Varying Power in Actual Radiation Fields -- 3.4 Comparison of Complex and Instantaneous Powers -- 3.5 Radiation Q -- 3.6 Chu's Q Analysis, TM Fields -- 3.7 Chu's Q Analysis, Exact for TM Fields -- 3.8 Chu's Q Analysis, TE Field -- 3.9 Chu's Q Analysis, Collocated TM and TE Modes -- 3.10 Q the Easy Way, Electrically Small Antennas -- 3.11 Q on the Basis of Time-Dependent Field Theory.

3.12 Q of a Radiating Electric Dipole -- 3.13 Q of Radiating Magnetic Dipoles -- 3.14 Q of Collocated Electric and Magnetic Dipole Pair -- 3.15 Q of Collocated Pairs of Dipoles -- 3.16 Four Collocated Electric and Magnetic Multipoles -- 3.17 Q of Multipolar Combinations -- 3.18 Numerical Characterization of Antennas -- 3.19 Experimental Characterization of Antennas -- 3.20 Q of Collocated Electric and Magnetic Dipoles: Numerical and Experimental Characterizations -- References -- Chapter 4 Quantum Theory -- 4.1 Electrons -- 4.2 Dipole Radiation Reaction Force -- 4.3 The Time-Independent Schrodinger Equation -- 4.4 The Uncertainty Principle -- 4.5 The Time-Dependent Schrodinger Equation -- 4.6 Quantum Operator Properties -- 4.7 Orthogonality -- 4.8 Harmonic Oscillators -- 4.9 Electron Angular Momentum, Central Force Fields -- 4.10 The Coulomb Potential Source -- 4.11 Hydrogen Atom Eigenfunctions -- 4.12 Perturbation Analysis -- 4.13 Non-Ionizing Transitions -- 4.14 Absorption and Emission of Radiation -- 4.15 Electric Dipole Selection Rules for One Electron Atoms -- 4.16 Electron Spin -- 4.17 Many-Electron Problems -- 4.18 Measurement Discussion -- References -- Chapter 5 Radiative Energy Exchanges -- 5.1 Blackbody Radiation, Rayleigh-Jeans Formula -- 5.2 Planck's Radiation Law, Energy -- 5.3 Planck's Radiation Law, Momentum -- 5.4 The Zero Point Field -- 5.5 The Photoelectric Effect -- 5.6 Power-Frequency Relationships -- 5.7 Length of the Wave Train and Radiation Q -- 5.8 The Extended Plane Wave Radiation Field -- 5.9 Gain and Radiation Pattern -- 5.10 Kinematic Values of the Radiation -- References -- Chapter 6 Photons -- 6.1 Telefields and Far Fields -- 6.2 Evaluation of Sum S12 on the Axes -- 6.3 Evaluation of Sums S22 and S32 on the Polar Axes -- 6.4 Evaluation of Sum S32 in the Equatorial Plane.

6.5 Evaluation of Sum S22 in the Equatorial Plane -- 6.6 Summary of the Axial Fields -- 6.7 Radiation Pattern at Infinite Radius -- 6.8 Multipolar Moments -- 6.9 Multipolar Photon-Field Stress and Shear -- 6.10 Self-Consistent Fields -- 6.11 Energy Exchanges -- 6.12 Self-Consistent Photon-Field Stress and Shear -- 6.13 Thermodynamic Reciprocity -- 6.14 Atomic Radiation -- References -- Chapter 7 Epilogue -- 7.1 Historical Background -- 7.2 Overview -- 7.3 The Radiation Scenario -- References -- Appendices -- 1 Introduction to Tensors -- 2 Tensor Operations -- 3 Tensor Symmetry -- 4 Differential Operations on Tensor Fields -- 5 Green's Function -- 6 The Potentials -- 7 Equivalent Sources -- 8 A Series Resonant Circuit -- 9 Q of Time Varying Systems -- 10 Bandwidth -- 11 Instantaneous and Complex Power in Radiation Fields -- 12 Conducting Boundary Conditions -- 13 Uniqueness -- 14 Spherical Shell Dipole -- 15 Gamma Functions -- 16 Azimuth Angle Trigonometric Functions -- 17 Zenith Angle Legendre Functions -- 18 Legendre Polynomials -- 19 Associated Legendre Functions -- 20 Orthogonality -- 21 Recursion Relationships -- 22 Integrals of Legendre Functions -- 23 Integrals of Fractional Order Legendre Functions -- 24 The First Solution Form -- 25 The Second Solution Form -- 26 Tables of Spherical Bessel, Neumann, and Hankel Functions -- 27 Spherical Bessel Function Sums -- 28 Static Scalar Potentials -- 29 Static Vector Potentials -- 30 Full Field Expansion -- References -- Index.