High Energy Particle Physics

   

Unified Electro-Gravity (UEG) Theory and Quantum Electrodynamics

Authors: Nirod K. Das

The Unified Electro-Gravity (UEG) theory, originally developed to model a stable static charge, is extended to a spinning charge using a ``quasi-static'' UEG model. The results from the new theory, evaluated in comparison with concepts and parameters from basic quantum mechanics (QM) and quantum electrodynamics (QED), show that the QM and the QED trace their fundamental origins to the UEG theory. The fine structure constant and the electron g-factor, which are key QED parameters, can be directly related to the proportionality constant (referred to as the UEG constant) used in the UEG theory. A QM wave function is shown to be equivalent to a space-time ripple in the permittivity function of the free space, produced by the UEG fields surrounding a spinning charge, and the basic QM relationships between energy and frequency naturally emerge from the UEG model. Further extension and generalization of the theory may also explain all other quantum mechanical concepts including particle-wave duality, frequency shift in electrodynamic scattering, and charge quantization, leading to full unification of the electromagnetics and gravity with the quantum mechanics.

Comments: 13 Pages.

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Submission history

[v1] 2019-06-24 01:13:56

Unique-IP document downloads: 16 times

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