Within the framework of Nonperturbative Vacuum Gravity (NVG), we show that the vacuum condensate Φ = W·e^iθ, decomposed into amplitude and Goldstone phase via the Madelung representation, provides a unified setting in which seven physical results can be derived from the single NVG action without introducing additional quantum postulates: I. The Heisenberg uncertainty principle as a Cauchy–Schwarz inequality for the fields W, θ II. The Born rule P ∝ |Ψ|² as the equilibrium distribution of localized excitations under osmotic drift and diffusion III. Wave-function collapse as θ-phase thermalization with a characteristic timescale τ ∝ ℏ/T in the overdamped regime IV. The vanishing of the QCD vacuum angle θQCD = 0 from the joint W–θ potential minimum, structurally distinct from the Peccei–Quinn mechanism V. The thermodynamic arrow of time from the topological sector Q = 1 VI. A conditional prediction that Bell–CHSH violation vanishes above the QCD deconfinement temperature Tc = 157 MeV, testable at RHIC BES-II VII. The Hawking temperature and Bekenstein–Hawking entropy as θ-mode thermalization on the horizon in classical curved spacetime Numerical verification scripts reproducing every figure are available at https: //github. com/infosave2007/vmf Related preprints: - NVG Dynamics: https: //doi. org/10. 5281/zenodo. 20473318- NVG EOS: https: //doi. org/10. 5281/zenodo. 20214457- NVG Neutron Stars: https: //doi. org/10. 5281/zenodo. 20463836
Oleg Yuryevich Kirichenko (Sun,) studied this question.
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