Quantum Gravity-Modulated Neutron   Superfluid Reaction:   A Novel Nuclear Energy Mechanism

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Abstract

Thispaperproposesanovelnuclearreactionmechanism,theQuantumGravity-ModulatedNeutron Superfluid Reaction(QGM-NSR),hypothesizingthatstronggravitationalfields(e.g.,simulatedinhigh-energyacceleratorsorneutronstarinteriors)induce aneutron superfluid statevia quantumgravityeffects,triggering an efficientnuclearreactionwithminimal byproducts.TheoreticalderivationsandMonteCarlosimulationsestablish the reactionmodel, predictinga reactionrate peaking atapproximately 1.0 ×107 events/s, anenergydensityof1.05 ×10¹² J/kg,anda resonantfrequencyof 10¹² Hz. Asignificant original discoveryis theemergenceofself-organizedcriticality(SOC)atg = 10¹³. 5 m/s² and ρ =104 4 m- ³,evidencedbya 1/fpower spectraldensity, suggestingnew physics inneutronsuperfluid-gravitycoupling.Hypothetical experimental designs and a three-phase validation pathare proposed.Thisstudyoffersa groundbreakingperspectivefornuclearenergy,withapplicationsinefficientpowergeneration,nuclearwastemanagement,anddeep-spaceexploration.

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last seen: 2026-05-20T01:45:00.602351+00:00
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License: CC-BY-4.0