1st Edition

Basics of Quantum Electrodynamics

    352 Pages
    by CRC Press

    352 Pages
    by CRC Press

    Quantum electrodynamics (QED) is the branch of relativistic quantum field theory that deals specifically with the interactions between charged particles. It is widely used to solve problems in many areas of physics, such as elementary particles, atomic and molecular systems, and solid state physics. This accessible text, Basics of Quantum Electrodynamics, supplies a solid foundation in this dynamic area of physics, making a direct connection to the concepts of quantum mechanics familiar to the advanced undergraduate student.

    Chapters cover the general theory of free fields and the quantization of the scalar, electromagnetic, and spinorial fields, which prepares readers for understanding field interactions. The authors describe the general theory of field interactions, introducing the scattering matrix and the Feynman–Dyson graphs. They then discuss divergence-free second-order processes, such as Compton and Møller scattering, followed by divergent second-order processes, which cover vacuum polarization and mass and charge renormalization.

    Providing a modern, informative textbook, this volume illustrates the intimate connection between quantum mechanics and QED in two basic steps: the quantization of free fields, followed by the theory of their interactions. The text contains solved problems to facilitate the application of the theory, as well as a useful appendix on the theory of distributions. The step-by-step description of the quantization of various fields and the clear presentation of the most important interaction processes in QED make this textbook a useful guide for those studying physics at both the graduate and undergraduate level, as well as a reference for teachers and researchers in the field.

    General Field Theory. General Problems of Field Quantization. The Quantization of the Scalar Field. The Quantization of the Electromagnetic Field. The Quantization of the Spinorial Field. General Problems of Field Interactions. Non-Divergent Second-Order Processes. Divergent Second-Order Processes. Appendix. Problems with Solutions. References. Subject Index.

    Biography

    Merches, Ioan; Tatomir, Dorian; Lupu, Roxana E.