Includes bibliographical references (p. 643-651) and index.
CONTENTS NOTE
Text of Note
1. Survey of the classical theory -- 2. Maxwell-Lorentz electrodynamics in space-time -- 3. Electromagnetic green functions in spectral representation -- 4. Angular spectrum representation of the green functions and fields -- 5. Multipole electrodynamics -- 6. Electrodynamic interaction between point dipoles:local fields -- 7. Radiation reaction -- 8. About local-field theory based on electron-photon wave mechanics -- 9. Transverse and longitudinal electrodynamics -- 10. Linear nonlocal response theory -- 11. Density matrix formalism: Hamilton and current density operators -- Gauge invariance -- 12. Quantum theory of the generalized nonlocal linear response -- 13. Microscopic Ewald-Oseen extinction theorem: coupled-antenna theory -- 14. Transverse and covariant electromagnetic propagators: principal volume and self-field dyadics -- 15. Photon wave mechanics: complex field theory -- 16. Photon wave mechanics: energy wave function and four-potential theories -- 17. Photon angular momentum -- 18. Photon emission from micro- and mesocopic sources: near-field aspects -- 19. Eikonal theory for transverse photons and massive particles of zero spin -- 20. Spin-1/2 currents: spatial photon localization in emission from a pure spin transition -- 21. One-particle position operators and spatial localization -- 22. Near fields and QED -- 23. The route to the Maxwell-Lorentz operator equations in the Coulomb Gauge -- 24. Field Commutators and integral representation of various covariant propagators -- 25. Electrodynamics in the Poincaré Gauge -- 26. Photo-field operators: wave-packet photons -- 27. Photon emission from atoms: elements of the nonrelativistic QED description -- 28. Particle-particle interaction by transverse photon exchange -- 29. Photons in a manifestly Lorenz-covariant theory -- 30. Matter-attached quantized fields.