Photon Creation - Annihilation : Continuum Electromagnetic Theory.

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This book provides a classical physics-based explanation of quantum physics, including a full description of photon creation and annihilation, and successful working models of both photons and electrons. Classical field theory, known to fully describe macroscopic scale events, is shown to fully desc...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Grimes, Dale M.
Otros Autores: Grimes, Craig A.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore : World Scientific, 2012.
Temas:
Quantum theory.
Théorie quantique.
SCIENCE > Physics > Nuclear.
Quantum theory
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Prelude; Acknowledgments; Contents; Introduction; References; 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 Wave Equations, Potential Gauges, and Uniqueness; 1.11 A Lemma for Field Calculation; 1.12 The Scalar Differential Equation; 1.13 Radiation Fields in Spherical Coordinates; References; Chapter 2 Properties of Radiation Fields.
  • 2.1 Dipoles in Continuous MediaElectric Dipole Sources; Magnetic Dipole Sources; Maxwell Source Equations; Boundary Conditions; 2.2 Electromagnetic Fields in Continuous Media; Constitutive Relationships; 2.3 Boxed, Discrete Electromagnetic Fields; 2.4 Q of Time Varying Systems; 2.5 Instantaneous and Complex Power in Fields; 2.6 Time Varying Power in Actual Radiation Fields; 2.7 Comparison of Complex and Instantaneous Powers; 2.8 Traveling Waves; 2.9 Scattering by a Sphere, General Aspects; 2.10 Scattering Spheres, Specific Examples; References; Chapter 3 Transmitting Biconical Antennas.
  • 3.1 Transmitting Biconical Antennas3.2 Fields; The Exterior Region; The Interior Region; 3.3 TEM Mode; 3.4 Boundary Conditions; 3.5 Defining Integral Equations; 3.6 Solution of the Biconical Antenna Problem; 3.7 Power; References; Chapter 4 Receiving Biconical Antennas; 4.1 Receiving Biconical Antennas; 4.2 Incoming TE Fields; 4.3 Incoming TM Fields; 4.4 Exterior Fields, Powers, and Forces; 4.5 The Cross Sections; 4.6 General Comments; 4.7 Fields of Receiving Antennas; 4.8 Boundary Conditions; 4.9 Zero Degree Solution; 4.10 Non-Zero Degree Solutions; 4.11 Surface Current Densities; 4.12 Power.
  • 6.5 Coulomb Potential Well6.6 Hydrogen Atom Eigenfunctions; 6.7 Perturbation Analysis; 6.8 Non-Ionizing Transitions; 6.9 Absorption and Emission of Radiation; 6.10 Dipole Radiation Selection Rules; 6.11 Many-Electron Systems; References; Chapter 7 Matched Multipolar Sources; 7.1 Radiating Electric Dipole; Radiation Q; 7.2 Radiation Reaction Force; Real and Reactive Radiation Reaction Forces; The Dipole Case; 7.3 Stress in a Dipole Radiation Field; 7.4 Pairs of Radiating Multipoles; Directivity; Field Energy; Radiation Q; Linear Momentum; Radiated Angular Momentum.

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