This document is version 2. 8 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 22 May 2026. Key updates in v2. 8 include: - Introduction of the refined functional form \ ( (T) = T₀ / T\) as a deeper variational realization, chosen for improved Tolman–Ehrenfest compatibility and geodesic consistency. - Significant strengthening of the Temperature–Time Duality with explicit empirical grounding in the Tolman–Ehrenfest effect. - New connections to the Thermal Time Hypothesis (Connes–Rovelli). - Updated unified relativistic geodesic and Poisson-like effective field equations that incorporate both mass-space and temperature-time contributions. - Refinements to the variational principle, emergent spacetime relations, and temperature-corrected electromagnetic constitutive relations. Building on v2. 7, the Alpha Void Tear continues to be understood as a dynamic spinning eccentric vortex (eccentricity \ (e 0. 962\) ) — the fundamental plumbing unit of reality. Persistent structures maintain stability through balanced reclamation waves and Greer Tax leakage. The single primitive remains charge asymmetry, from which all physical reality (photons, neutrinos, electrons, protons, spacetime itself) emerges via helical circulation, critical locking, and Greer’s Universal Variational Principle. The ontology continues to treat information as quantized and energy as continuous/relational, with temporal resistance \ ( (T) \) playing a central regulatory role. It provides a minimal pre-geometric foundation that recovers standard physics in appropriate limits while offering quantitative contact with experiment (notably the C₁₃Cl₂ half-Möbius molecule) and new testable predictions. This MRD serves as the living backbone of the Charge-Entanglement Ontology.
John Robert Lamarr Greer (Tue,) studied this question.