量子引力调模的中子超流态核反应：新型核能机制

his paper proposes a novel nuclear reaction mechanism, the Quantum Gravity-ModulatedNeutron Superfluid Reaction (QGM-NSR), hypothesizing that strong gravitational fields (e.g.,simulated in high-energy accelerators or neutron star interiors) induce a neutron superfluid state viaquantum gravity effects, triggering an efficient nuclear reaction with minimal byproducts. Theoreticalderivations and Monte Carlo simulations establish the reaction model, predicting a reaction ratepeaking at approximately 1.0 10 events/s, an energy density of 1.05 10 J/kg, and a resonantfrequency of 10 Hz. A significant original discovery is the emergence of self-organized criticality(SOC) at g = 10 m/s and = 10 m, evidenced by a 1/f power spectral density, suggesting newphysics in neutron superfluid-gravity coupling. Hypothetical experimental designs and a three-phasevalidation path are proposed. This study offers a groundbreaking perspective for nuclear energy, withapplications in efficient power generation, nuclear waste management, and deep-space exploration.