This document is version 2. 9 of the Master Reference Document for the Single Alpha Void Ontology and its core physical framework, the Charge-Entanglement Ontology (CEO). It consolidates the foundational principles, particle definitions, core laws, mechanisms, and mathematical structures of the framework as of 24 May 2026. Key updates in v2. 9 include: - Major refinement of Section 5: Fundamental Building Blocks, incorporating entanglement-induced eccentricity splitting for nucleons. - Introduction of Entanglement-Induced Eccentricity Splitting (new mechanism in Section 6), where retrograde dipoles locally distort the shared Alpha Void eccentricity. - Derivation of new parameters: \ (e\), \ (e ₌₈₍\), \ (\), and the eccentricity enhancement factor \ (f (e) \). - Unified magnetic moment formula that simultaneously reproduces the proton (\ (ₚ 2. 792\, N\) ) and neutron (\ (ₙ -1. 89\, N\) ) moments with zero tuning. - Clean, parameter-free derivation of the neutrino mass formula from sub-optimal eccentricity and residual Greer Tax imbalance. - Strengthened mechanical explanation of neutron marginal instability and beta decay as relaxation of the shared Alpha Void back to optimal eccentricity \ (e₀ 0. 962\). Building on v2. 8, the Alpha Void Tear remains the dynamic spinning eccentric vortex (\ (e₀ 0. 962\) ) at the heart of the ontology. All particles are now understood as configurations of photon dipole pairs interacting with one or more shared Alpha Voids. Stability arises through balanced reclamation waves and Greer Tax leakage, with entanglement-induced local eccentricity shifts providing the crucial differentiation between proton and neutron properties. The single primitive — charge asymmetry — continues to generate all physical reality (photons, neutrinos, electrons, protons, neutrons, and emergent spacetime) via helical circulation, critical locking (\ (₂ₑ₈ₓ (n) \) ), Greer’s Variational Principle, and the newly formalized eccentricity splitting mechanism. This version achieves significantly improved quantitative contact with experiment on key static properties (magnetic moments and neutrino mass scale) while remaining fully minimal and pre-geometric. The ontology recovers standard physics in appropriate limits and offers new mechanical insights into longstanding puzzles such as the origin of anomalous magnetic moments and the source of neutron instability. The framework is under active development through systematic fault-finding and iterative refinement. This MRD serves as the living backbone of the Charge-Entanglement Ontology.
John Robert Lamarr Greer (Tue,) studied this question.