Rainer Collier
Published 2017-09-28Version 1
This article examines the consequences of the existence of an upper particle momentum limit in quantum electrodynamics, where this momentum limit is the Planck momentum. The method used is Fourier analysis as developed already by Fermi in his fundamental work on the quantum theory of radiation. After determination of the appropriate Hamiltonian, a Schr\"odinger equation and the associated commutation rules of the field operators are given. At the upper momentum limit mentioned above, the divergent terms occurring in the Hamiltonian (the self-energies of the electrons and the zero-point energy of the electromagnetic field) adopt finite values, which will be stated and compared with each other.
Comments: 12 pages, no figures
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Time-dependent Kohn-Sham approach to quantum electrodynamics
Quantum Electrodynamics at Large Distances III: Verification of Pole Factorization and the Correspondence Principle
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