Charge-Entanglement Ontology: Dimensional Wave-Locking, 1D Photons, 2D Electrons, 3D Nucleons, and the Mechanical Origin of Mass, Magnetism, Gravity, and Entanglement Paper 39

This paper introduces a unified mechanical ontology within the Single Alpha Void framework, where all fundamental particles and forces emerge from static photon dipoles that generate spinning destructive interference nodes (Alpha Voids) in a dynamic helical fabric. The fabric responds with orthogonal reclamation waves that lock across dimensions, naturally producing the observed hierarchy: massless 1D photons (perfect phase matching), lightly massive detuned 1D neutrinos (phase beats), 2D electrons (x-y wave locking with circular bobbing), and 3D nucleons (full x-y-z locking). A simple leading-order relation m ≈ n/3 (in atomic mass units, where n is the number of locked orthogonal waves) directly accounts for the emergence of rest mass from dimensional stabilization. Compact, step-by-step derived equations explain rest mass, the proton–electron mass ratio, neutrino masses via phase detuning, magnetism as the “Greer Tax” (circulation leakage from bobbing motion), gravity as collective reclamation demand, and entanglement as shared-node mechanical coherence. The model reproduces nuclear masses with high accuracy using minimal parameters, identifies magnetism and gravity as different scales of the same reclamation mechanism, and proposes a natural dark-matter candidate consisting of out-of-sync wave structures that interact gravitationally but not electromagnetically. The ontology is fully mechanical—no orbiting charges, no action-at-a-distance, no new fundamental particles—reducing physics to photon dipoles, destructive interference nodes, and dimensional wave-locking in a dynamic fabric. It offers an intuitive, mathematically compact picture consistent with observed particle prop