TL;DR
This paper presents a gravitating lepton bag model based on the Kerr-Newman solution, integrating gravitational, electromagnetic, and Higgs mechanisms to describe electron structure with a flexible, disk-like shape and string-like deformations.
Contribution
It introduces a novel gravitating bag model aligned with Kerr-Newman fields, combining gravitational, electromagnetic, and Higgs mechanisms in a unified framework.
Findings
The model aligns with external Kerr-Newman solutions.
It describes a flexible, disk-shaped bag with string-like deformations.
The bag model incorporates Higgs mechanism for regularization.
Abstract
As is known, the gravitational and electromagnetic (EM) field of the Dirac electron is described by an over-extremal Kerr-Newman (KN) black hole (BH) solution which has the naked singular ring and two-sheeted topology. This space is regulated by the formation of a regular source based on the Higgs mechanism of broken symmetry. This source shares much in common with the known MIT- and SLAC-bag models, but has the important advantage, of being in accordance with gravitational and electromagnetic field of the external KN solution. The KN bag model is flexible. At rotations, it takes the shape of a thin disk, and similar to other bag models, under deformations it creates a string-like structure which is positioned along the sharp border of the disk.
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