Micro-Hydrodynamics of the ψ-Field Viscous Nucleon Confinement and the 4.8 keV Energy Threshold
Micro-Hydrodynamics of the ψ-Field Viscous Nucleon Confinement and the 4.8 keV Energy Threshold
This paper scales the Fermionic Universe Hypothesis (FUH) from cosmological objects down to the subatomic level. A radically new perspective on the strong interaction is proposed: the atomic nucleus is viewed not as an isolated system, but as a "baryonic island" held together by the external isotropic pressure of a viscous fermion condensate (the ψ-field). The paper provides a mathematical justification for the "Viscous Barrier" and predicts the possibility of controlling nuclear reactions by surpassing the Shlyapik Threshold (7.76 keV).
FUH, Potter Effect, Quantum Viscosity, Baryonic Island, Viscous Condensate, Nuclear Confinement, Migdal Effect, Shlyapik Threshold, Fermionic Universe Hypothesis
FUH, Potter Effect, Quantum Viscosity, Baryonic Island, Viscous Condensate, Nuclear Confinement, Migdal Effect, Shlyapik Threshold, Fermionic Universe Hypothesis
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