"The late Julian Schwinger shared the 1965 Nobel Prize for Physics with Richard Feynman and Sin-ltiro Tomonaga for their work on the theory of quantum electrodynamics. Lester L. DeRaad, Jr. is Senior Research Specialist at Logicon RDA. Kimball A. Milton is Professor of Physics at the University of Oklahoma, Norman. Wu-yang Tsai is Scatterometer Project Engineer and Group Supervisor at the Jet Propulsion Laboratory in Pasadena, California."
Inhaltsangabe
Preface Reader's Guide 1 Maxwell's Equations 2 Magnetic Charge I 3 Conservation Laws 4 Macroscopic Electrodynamics 5 Simple Model for Constitutive Relations 6 Magnetic Properties of Matter 7 Macroscopic Energy and Momentum 8 Review of Action Principles 9 Action Principle for Electrodynamics 10 Einsteinian Relativity 11 Stationary Principles for Electrostatics 12 Introduction to Green's Functions 13 Electrostatics in Free Space 14 Semi-Infinite Dielectric 15 Application of Green's Function 16 Bessel Functions 17 Parallel Conducting Plates 18 Modified Bessel Functions 19 Cylindrical Conductors 20 Spherical Harmonics 21 Coulomb's Potential 22 Multipoles 23 Conducting and Dielectric Spheres 24 Dielectrics and Conductors 25 Modes and Variations 26 Magnetostatics 27 Macroscopic Current Distributions 28 Magnetic Multipoles 29 Magnetic Scalar Potential 30 Magnetic Charge II 31 Retarded Green's Function 32 Radiation-Field Point of View 33 Radiation-Source Point of View 34 Models of Antennas 35 Spectral Distribution of Radiation 36 Power Spectrum and Cerenkov Radiation 37 Constant Acceleration and Impulse 38 Synchrotron Radiation I 39 Synchrotron Radiation II-Polarization 40 Synchrotron Radiation III-High Energies 41 Propagation in a Dielectric Medium 42 Reflection by an Imperfect Conductor 43 Cylindrical Coordinates 44 Waveguides 45 Scattering by Small Obstacles 46 Partial-Wave Analysis of Scattering 4 7 Diffraction I 48 Diffraction II 49 Babinet's Principle 50 General Scattering 51 Dispersion Relations for the Susceptibility 52 Charged Particle Energy Loss A Units B Bibliography Index
Preface Reader's Guide 1 Maxwell's Equations 2 Magnetic Charge I 3 Conservation Laws 4 Macroscopic Electrodynamics 5 Simple Model for Constitutive Relations 6 Magnetic Properties of Matter 7 Macroscopic Energy and Momentum 8 Review of Action Principles 9 Action Principle for Electrodynamics 10 Einsteinian Relativity 11 Stationary Principles for Electrostatics 12 Introduction to Green's Functions 13 Electrostatics in Free Space 14 Semi-Infinite Dielectric 15 Application of Green's Function 16 Bessel Functions 17 Parallel Conducting Plates 18 Modified Bessel Functions 19 Cylindrical Conductors 20 Spherical Harmonics 21 Coulomb's Potential 22 Multipoles 23 Conducting and Dielectric Spheres 24 Dielectrics and Conductors 25 Modes and Variations 26 Magnetostatics 27 Macroscopic Current Distributions 28 Magnetic Multipoles 29 Magnetic Scalar Potential 30 Magnetic Charge II 31 Retarded Green's Function 32 Radiation-Field Point of View 33 Radiation-Source Point of View 34 Models of Antennas 35 Spectral Distribution of Radiation 36 Power Spectrum and Cerenkov Radiation 37 Constant Acceleration and Impulse 38 Synchrotron Radiation I 39 Synchrotron Radiation II-Polarization 40 Synchrotron Radiation III-High Energies 41 Propagation in a Dielectric Medium 42 Reflection by an Imperfect Conductor 43 Cylindrical Coordinates 44 Waveguides 45 Scattering by Small Obstacles 46 Partial-Wave Analysis of Scattering 4 7 Diffraction I 48 Diffraction II 49 Babinet's Principle 50 General Scattering 51 Dispersion Relations for the Susceptibility 52 Charged Particle Energy Loss A Units B Bibliography Index
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