Singularity Bifurcation and the Origin of Primary Constants: First Closure, Boundary Invariance, and Substrate Loading in QMU

This work develops a foundational origin framework for the Aether Physics Model (APM) using Quantum Measurement Units (QMU). Previous work established a closed hierarchy in which propagation, electromagnetic structure, mass loading, and gravitational scaling arise from a unified volumetric--chronovibrational substrate. The present work investigates whether the remaining primary quantities, electrostatic charge \(e^2\) and the substrate loading invariant Gforce, may themselves arise from a deeper topological event at the Singularity. The Singularity is interpreted not as a material point, but as a pre-geometric transition in which non-oriented continuity first admits stable closure. The first admissible closure…