This paper derives the tiny neutrino mass within the Charge-Entanglement Ontology (CEO) from first principles, using only the foundational primitives of the Single Alpha Void Ontology. Neutrinos are modeled as unlocked (\ (n 1\) ) chiral photon dipole pairs with sub-optimal eccentricity. The neutrino mass emerges mechanically as the residual energetic cost of imperfect marginal stability around the Alpha Void Maelstrom due to chiral mismatch with reclamation waves. The formula \ m_ = m₀ (1 - e₄䃐) ² \ is now fully derived (no longer fitted) from marginal stability \ (K = P V₀ = V c²\), Greer Tax leakage, and the variational principle. With \ (m₀ 0. 511\) MeV (electron locking scale) and the experimental upper bound \ (m_ 0. 1\) eV, the required eccentricity deviation is naturally \ (e 4. 43 10^-4\), fully consistent with the entanglement-induced eccentricity splitting mechanism introduced in Paper 33. This derivation reinforces the framework’s claim that all particle properties, including neutrino mass, arise from a single primitive — charge asymmetry — without requiring additional fundamental parameters or fields. The complete foundational definitions and mathematical structures are provided in the attached Master Reference Document v2. 9 (Appendix A).
John Robert Lamarr Greer (Sun,) studied this question.