Abstract

The invention relates to a compact, high-efficiency energy generation system employing

quantum-entangled hydrogen isotope fusion within nanoscale confinement structures. It

comprises a multiplicity of individually controlled fusion traps formed at nanometer scale, each

configured to receive pre-entangled pairs of hydrogen isotopes such as protium, deuterium, or

tritium. Each trap is stimulated by attosecond-timed electromagnetic resonance pulses to induce

fusion via quantum tunneling. Fusion events are monitored and optimised through an integrated

artificial intelligence (AI) control layer that ensures only coherence-validated, phase-aligned

pairs are activated. The system includes capacitive and inductive energy reclamation

components, and operates in inert gas environments without vacuum chambers or magnetic

plasma confinement. This allows for safe, clean, modular, and radiation-free energy generation

suitable for terrestrial, mobile, and space-based applications. Present-day embodiments yield

1–3 MW electrical output in ~2 m³ volume. Future embodiments scale output to 16–17 MW per

~1 m³ module with improved entanglement routing, phase tuning, and quantum AI

synchronization.

Creative Commons License

Branton, Peter, "Quantum Smart Entangled Fusion Reactor", Technical Disclosure Commons, (May 04, 2025)
https://www.tdcommons.org/dpubs_series/8068

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