This work extends the Aether Physics Model (APM) into cosmology by interpreting universal expansion as continuous Aether-unit formation rather than as a one-time origin event. The Singularity is treated as kinetic and ongoing: a continuous transition from non-oriented substrate to stable loxodromic closure. The model introduces a scalar closure field, \ (x, t) voco (x, t), the local degree of Aether-unit completion. A QMU-consistent closure Lagrangian is constructed, =12 (t) ²-12 (C Fq) ² () ²-V (), a closure potential (;ₘ, Aₘ) = (²-₀²) ²+₁ₘ-₂ₘ. \ The resulting field equation admits propagating closure-front solutions. These fronts describe the transition\₀ ₋₎ₗ, \ (₀\) denotes non-oriented substrate and \ (₋₎ₗ\) denotes stable Aether-unit closure. The Hubble parameter is derived as the fractional rate of closure-front propagation. In QMU form, ²=Fq²H₂₎ₒ, \ (H\) is the angular closure factor and \ (₂₎ₒ\) is the dimensionless cosmological closure density. For full spherical closure, \H=83, =Fq8{3₂₎ₒ}. \ The cosmological density is decomposed into intrinsic and matter-stimulated contributions: \₂₎ₒ=₁₆+ₒₓ₈₌, that=Fq8{3 (₁₆+ₒₓ₈₌) }. \ A closed cosmological cycle is introduced: \₀₋₎ₗₘ₀. this cycle, Aether units form, become mass-loaded, and eventually unravel under extreme loading conditions. Black holes are interpreted as unravelling channels that return mass strings to the pre-closure substrate, completing a cosmological recycling loop. The paper therefore supports an eternal, regenerative cosmology in which expansion, mass loading, black-hole recycling, and the persistence of physical constants arise from a single ongoing closure process.
David W. Thomson (Sun,) studied this question.