Gentle Stacking and Nuclear Fusion Techniques presents a complete theoretical framework for controlled nuclear fusion based on the Charge-Entanglement Ontology. Gentle Stacking is defined as the low-noise, incremental reconfiguration of Alpha Void Tears that resolves excess shared locking \ (m \) without triggering a hypernova-style release. The paper derives the full Gentle Stacking Criterion, incorporating spatial noise \ (ₕ \), photon degeneracy pressure as a stabilizer, and a noise-augmented WKB tunneling probability. Reactor scaling laws, the analytic sweet spot (\ (a (T) ₎ₓ = 1/B (1-d) \) ), sweet size, and predicted performance (1. 2–3+ GW thermal, Q = 50–200+ in a ~5 m reactor) are obtained directly from the drainage engine. The Dynamic Casimir Effect is integrated for active photon generation, and advanced control (MPC + EKF) is shown to maintain the sweet-spot regime. Critical-density safety analysis and a paradigm shift toward low-noise, degeneracy-optimised design complete the work. The framework explains stellar fusion stability and offers a concrete path to practical terrestrial gentle-stacking reactors.
John Robert Lamarr Greer (Mon,) studied this question.
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