Charge-Entanglement Ontology The Alpha Void Tear: A Pre-Geometric Model for the Photon Planck-Scale Charge Separation and the Geometric Emergence of Spacetime Paper 24

We present a pre-geometric ontological model in which the photon emerges as an alpha void tear — a topological defect consisting of a localized absence of space, time, and temperature at the Planck scale. Stabilized by two oppositely charged dipoles in perpetual planar orbit, the defect maintains marginal stability via the relation \ (K = P Vₒ \). A continuous magnetic leakage current threading the void pays the Greer Tax in real time, ensuring the photon remains eternal while propagating at \ (c \). All standard photon observables (zero rest mass, \ (E = h \), \ (p = E/c \), helicity \ (1\), transverse polarization, and null geodesic propagation) are derived directly from the geometry and marginal stability condition without additional postulates. The model further shows that entanglement of two Planck-scale alpha void tears correlates their orbital planes, geometrically generating the minimal stable 3D volume. In this framework, the Planck length is the minimum distance at which charge separation can exist. Rest mass emerges as the energetic cost of maintaining this 3D displacement against vacuum pressure. Entanglement is thus the fundamental mechanism of spatial information quantization. This Charge-Entanglement Ontology provides a unified, minimal foundation in which photons, massive particles, 3D spacetime, and a pathway to quantum gravity all arise from a single primitive: charge asymmetry. The model reproduces standard phenomenology at leading order while offering unique conceptual economy and new predictions for extreme regimes. This paper serves as the foundational cornerstone of the broader Single Alpha Void Ontology developed in the author’s Master Reference Document.