Table of Contents

Editor’s Foreword — Preface — Review of the Principles of Quantum Mechanics — Spin and Statistics — Rotations and Angular Momentum — Rules of Composition of Angular Momentum — Relativity — Electromagnetic and Fermi Couplings — Fermi Couplings and the Failure of Parity — Pion-Nucleon Coupling — Strange Particles — Some Consequences of Strangeness — Strong Coupling Schemes — Strange Particles — The Question of a Universal Coupling Coefficient — Rules of Strangeness Changing Decays: Experiments — Fundamental Laws of Electromagnetic and β-Decay Coupling — Density of Final States — The Propagator for Scalar Particles — The Propagator in Configuration Space — Particles of Spin — Virtual and Real Photons — Problems — Spin-1/2 Particles — Extension of Finite Mass — Properties of the Four-Component Spinor — Particles of Spin — Direct Pair Production by Muons — Higher-Order Processes — Self-Energy of the Electron — Quantum Electrodynamics — Meson Theory — Theory of β Decay — Properties of the β-Decay Coupling — Summary of the Course