Quantum Theory

Contributors to this VolumePrefaceContents of Volumes 10-I and 10-II1. Relativistic Wave Equations 1. Introduction 2. The Dirac Equation 3. The Klein-Gordon Equation References2. Noncovariant Quantum Theory of Radiation 1. Introduction 2. Semiclassical Theory 3. Quantum Theory of the Radiation Field 4. The Interaction of the Radiation Field with Matter, Nonrelativistic Theory 5. Radiation Theory Using the Dirac Equation 6. General Electromagnetic Fields 7. Fluctuations of the Fields and Energy Level Shifts References3 . Covariant Theory of Radiation 1. Introduction 2. Classical and Quantum Particle Mechanics 3. The Schrödinger and Heisenberg Pictures 4. Relativistic Quantum Field Theory 5. The Free Electromagnetic Field 6. Free Electron Field 7. Electron and Electromagnetic Fields in Interaction 8. Solution of the Interacting Field Problem 9. Evaluation of the S Matrix Elements 10. Applications of the Feynman-Dyson Techniques 11. Radiative Corrections and Divergences 12. Renormalization Procedure to Second-Order in e 13. Renormalization of the General Term in S 14. Applications of the Renormalization Procedure Conclusion References4. Meson Theory and Nuclear Forces 1. Introduction 2. General Properties of p-Mesons 3. The Meson Field 4. Charged Meson Field 5. The Charge-Independent Meson Field 6. Meson Nucleon Interactions 7. Relativistic Calculations in Meson Physics 8. Phenomenological Analysis of Meson Phenomena 9. Theory of Meson-Nucleon Scattering 10. Photomeson Production 11. Meson Theory of Nuclear Forces 12. Dispersion Relations 13. Further Topics References5. Nuclear Structure 1. Concept of Nuclear Matter: Nuclear Parameters 2. Nuclear Constituents: The Isotopic Spin Formalism 3. Properties of the Noninteracting System 4. Characteristics of the Two-Body Interaction 5. Variational Calculation of First-Order Energy 6. Many-Body Perturbation Theory: Second Quantization 7. The Perturbation Energy and Wave Function to First and Second Order 8. The Two-Body Interaction as Determined at High Energy 9. Treatment of the Hard Cores 10. Higher Order Perturbation Theory: The Reaction Matrix 11. Cluster Corrections 12. The K-Matrix Equation: Final Determination of Nuclear Properties References6. Hidden Variables in the Quantum Theory 1. Main Features of the Quantum Theory 2. Limitations on Determinism Implied by the Quantum Theory 3. On the Interpretation of Indeterminism in the Quantum Theory 4. Arguments in Favor of the Interpretation of Quantum Mechanical Indeterminism as Irreducible Lawlessness 5. Bohr's Resolution of the Paradox of Einstein, Rosen, and Podolsky - the Indivisibility of All Material Processes 6. Preliminary Interpretation of Quantum Theory in Terms of Hidden Variables 7. Criticisms of Our Preliminary Interpretation of Quantum Theory in Terms of Hidden Variables 8. Steps toward a More Detailed Theory of Hidden Variables 9. Treatment of Quantum Fluctuations 10. Heisenberg's Indeterminacy Principle 11. The Indivisibility of Quantum Processes 12. Explanation of Quantization of Action 13. Discussion of Experiments to Probe Subquantum Level 14. Conclusion ReferencesAppendix 3.1 Projection OperatorsAuthor IndexSubject Index