## Quantum Electrodynamics: A Lecture Note and Reprint Volume |

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### Contents

Interaction of Light with MatterQuantum Electrodynamics | 3 |

Resume of the Principles and Results of Special Relativity | 23 |

Relativistic Wave Equation | 34 |

Copyright | |

5 other sections not shown

### Other editions - View all

Quantum Electrodynamics: A Lecture Note and Reprint Volume (Classic Reprint) Richard Phillips Feynman No preview available - 2017 |

### Common terms and phrases

absorbed absorption amplitude angular momentum annihilation approximation arises atom calculate charge classical closed loop components Compton scattering computed consider convergence factor Coulomb potential cross section cut-off defined density diagram difference dipole Dirac equation direction discussed divergence effect elec electromagnetic emission emitted equivalent example exclusion principle expression field four-vector free particle given Hamiltonian Hence initial and final integral interaction interpreted invariant involving Klein-Gordon equation Klein-Nishina formula Lecture mass matrix element meson method momentum representation negative energy neutron nonrelativistic normalization Note nucleon obtained operator pair production parity Pauli equation perturbation photon Phys positive energy positron prob./sec problem propagation kernel pseudoscalar quantum electrodynamics quantum mechanics R. P. FEYNMAN radiation radiative corrections relativistic renormalization replaced represented result satisfy scalar second quantization self-action self-energy sin2 solution space-time spin subtracted theory tion transition probability tron vacuum polarization virtual wave function written