Your search keyword '"*QUANTUM electrodynamics"' showing total 2 results

1. Generalized quantum electrodynamics: One-loop correction.

Author

Montenegro, David

Subjects

*QUANTUM electrodynamics, *QUANTUM field theory, *VACUUM polarization, *RADIATIVE corrections, *STATISTICAL correlation

Abstract

In this paper, we give an update on divergent problems concerning the radiative corrections of quantum electrodynamics in (3 + 1) dimensions. In doing so, we introduce a geometric adaptation for the covariant photon propagator by including a higher derivative field. This derivation, so-called generalized quantum electrodynamics, is motivated by the stability and unitarity features. This theory provides a natural and self-consistent extension of the quantum electrodynamics by enlarging the space parameter of spinor-gauge interactions. In particular, Haag's theorem undermines the perturbative characterization of the interaction picture due to its inconsistency on quantum field theory foundations. To circumvent this problem, we develop our perturbative approach in the Heisenberg picture and use it to investigate the behavior of the operator current at one-loop. We find the two- and three-point correlation functions are ultraviolet finite, electron self-energy and vertex corrections, respectively. On the other hand, we also explain how the vacuum polarization remains ultraviolet divergent only at e 2 order. Finally, we evaluate the anomalous magnetic moment, which allows us to specify a lower bound value for the Podolsky parameter. [ABSTRACT FROM AUTHOR]

Published

2021

2. Planar generalized electrodynamics for one-loop amplitude in the Heisenberg picture.

Author

Montenegro, David and Pimentel, B. M.

Subjects

*ELECTRODYNAMICS, *QUANTUM fluctuations, *GAUGE invariance, *MAGNETIC moments, *PICTURES, *QUANTUM electrodynamics

Abstract

We examine the generalized quantum electrodynamics as a natural extension of the Maxwell electrodynamics to cure the one-loop divergence. We establish a precise scenario to discuss the underlying features between photon and fermion where the perturbative Maxwell electrodynamics fails. Our quantum model combines stability, unitarity, and gauge invariance as the central properties. To interpret the quantum fluctuations without suffering from the physical conflicts proved by Haag's theorem, we construct the covariant quantization in the Heisenberg picture instead of the Interaction one. Furthermore, we discuss the absence of anomalous magnetic moment and mass-shell singularity. [ABSTRACT FROM AUTHOR]

Published

2021