This paper presents a comprehensive theoretical framework for controlled nuclear fusion and baryonic recycling within the Charge-Entanglement Ontology (CEO). Building on the Single Alpha Void and photon dipole pair primitives, it defines Gentle Stacking as the low-noise, incremental reconfiguration of Alpha Void Tears governed by Greer’s Law of Action and the full Gentle Stacking Criterion (including spatial noise, photon degeneracy pressure, and quantum tunneling through null nodes). Key advances include: - Phase-matched spin alignment with a dedicated pre-reaction chamber for coherent stack preparation. - Integration of the Dynamic Casimir Effect (forward and reverse) via Bogoliubov transformations for photon generation, degeneracy enhancement, and dual energy harvesting. - Detailed reactor design featuring DNF (Dense Native Folded) multi-helix wall materials, advanced control systems (Beta phase locking, MPC + EKF), scaling laws, analytic sweet spot, and critical-density safety analysis. - Explicit contrast with current terrestrial fusion approaches, characterised as brute-force, high-noise attempts to overcome the Coulomb barrier that violate the natural low-noise, degeneracy-enhanced regime used by stellar cores. The framework enables safe, compact reactors with high gain (Q = 50–300+) and supports baryonic recycling — controlled gentle stacking/unstacking of any waste feedstock, with priority applications in spent nuclear waste reprocessing (into reusable fissile isotopes) and plastic/polymer upcycling.