Related papers: Torsional Regularization of Self-Energy and Bare Mass of Electron

Torsional Regularization of Self-Energy and Bare Mass of Electron

URL: http://arxiv.org/abs/2107.01612v2
Date: Tue, 03 Jun 2025 22:26:00 GMT
Title: Torsional Regularization of Self-Energy and Bare Mass of Electron
Authors: Michael Del Grosso, Nikodem Popławski,
Abstract summary: We show that torsion eliminates the ultraviolet divergence of the standard self-energy.<n>We also show that the infrared divergence is absent.<n>In the end, we calculate the finite bare masses of the electron, muon, and tau lepton.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In the presence of spacetime torsion, the momentum components do not commute; therefore, in quantum field theory, summation over the momentum eigenvalues will replace integration over the momentum. In the Einstein--Cartan theory of gravity, in which torsion is coupled to spin, the separation between the eigenvalues increases with the magnitude of the momentum. Consequently, this replacement regularizes divergent integrals in Feynman diagrams with loops by turning them into convergent sums. In this article, we apply torsional regularization to the self-energy of a charged lepton in quantum electrodynamics. We show that torsion eliminates the ultraviolet divergence of the standard self-energy. We also show that the infrared divergence is absent. In the end, we calculate the finite bare masses of the electron, muon, and tau lepton: $0.4329\,\mbox{MeV}$, $90.95\,\mbox{MeV}$, and $1543\,\mbox{MeV}$, respectively. These values constitute about $85\%$ of the observed, re-normalized masses.

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