Energy Mediated by Interference of Particles (Parts I-IV): The Way to Unified Classical and Quantum Fields and Interactions

TL;DR

This paper proposes a unified classical and quantum field theory based on particle interference, deriving a quantum equation that unifies gravitation, electromagnetism, and nuclear forces, explaining known phenomena and predicting new interactions.

Contribution

It introduces a novel model that unifies fundamental forces through particle interference, explaining known quantum phenomena and predicting new effects like anti-gravity and gravito-nuclear forces.

Findings

Derives a quantum equation unifying gravitation and electromagnetism.

Explains the physical nature of electron spin and anomalous magnetic moment.

Predicts new interactions such as anti-gravity and gravito-nuclear forces.

Abstract

Using the Einstein energy-mass relation and a concept of cross-correlating material unit-fields (pp. 1-148), the quantum equation for united gravitation and electromagnetism is derived (pp. 148-164). The unified equation yields all known solutions to the Dirac equation, for example, the fine and hyperfine structure of the atom spectrum. Moreover, the model explains physical nature of the spin and anomalous gyromagnetic factor of an electron, as well as the Pauli exclusion principle. For weak fields, in the classical limit, the model simplifies to the Lorentz-Maxwell electromagnetism and the so-called gravitoelectromagnetic approximation of Einstein's general relativity. In case of the strong fields, the unified model yields new predictions compared to the Einstein gravity, Lorentz-Maxwell electromagnetism and quantum mechanics. For instance, the cross-correlation of gravitational and electric potentials predicts the "anti-gravity force". The "dark matter" and "dark energy" also find natural explanations in the present model. For the unit-fields carrying the gravitational, electric and strong-nuclear "dressings", the quantum equation and its classical limit for the united gravitational, electromagnetic, weak-nuclear and strong-nuclear fields and interactions are derived (pp. 164-183). The cross-correlation of electric and strong-nuclear potentials of the electric and strong-nuclear "dressings" explains the physical nature of weak-nuclear force. Whereas, the cross-correlation of gravitational and strong-nuclear potentials predicts the new kind of interactions, namely the gravito-nuclearstrong force.