Trinity Electrodynamics: A Unified FieldFramework for Matter and Life
This paper introduces Trinity Electrodynamics, a new physical framework proposing that matter, forces, and biological structures emerge naturally from elastic triadic configurations of electromagnetic fields. By replacing colour charge gluons, Higgs fields, and extra-dimensional constructs with directly measurable field tensions, Trinity Electrodynamics offers a minimalistic yet experimentally testable foundation for unifying particle physics, cosmology, and the origins of life.
The theory models particles as confined elastic field structures rather than point-like objects or vibrating strings, providing natural explanations for mass, spin, charge conservation, and confinement. It predicts observable phenomena distinct from Quantum Chromodynamics (QCD), including modified jet angular distributions, softer small-x structure functions in deep inelastic scattering, and a smaller proton radius — aligning with muonic hydrogen measurements.
Beyond particle physics, the paper explores extensions toward gravitation, biological self-organization, and future technologies based on elastic field dynamics. Trinity Electrodynamics offers a real-space, measurable alternative to highly abstract contemporary models, opening new pathways for experimental tests and theoretical development.
Keywords:
Unified Field Theory, Electrodynamics, Elastic Field Structures, Particle Physics, Deep Inelastic Scattering, Quantum Chromodynamics (QCD), Proton Radius Puzzle, Origin of Life, Electromagnetic Fields, Asymptotic Freedom
Categories:
- Theoretical Physics
- Electromagnetism
- Particle Physics
- Field Theory
- Interdisciplinary Science (Physics and Biology)
License:
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