This thesis introduces a unifying conceptual framework for modern physics, systematically replacing the passive, geometric metric tensor of General Relativity with an active, compressible, non-Newtonian fluid medium. We postulate that the macro-universe is fundamentally a multi-layered, stratified Bose-Einstein Condensate (BEC) sitting at cosmological scale conditions 1.4. By treating spacetime as a physical quantum superfluid, we reconcile the long-standing theoretical fragmentation between classical relativity and quantum field theory. Under this unified paradigm, we explicitly demonstrate that: (1) the speed of light (c) is the acoustic phonon propagation velocity limit of the medium; (2) time dilation is a consequence of localized hydrostatic fluid pressure; (3) mass emerges as compressed, self-trapping topological energy vortices; (4) black holes are finite, zero-density acoustic cavitation zones wrapped in hyper-dense rings causing total internal reflection; (5) quantum non-locality is an emergent spatial illusion resolved by physical, adjacent proximity across a stratified origami continuum 1.4; (6) the cosmic vacuum is an emergent structural illusion driven by a localized low-pressure thermodynamic minimum inside an expanding cosmological balloon matrix; and (7) the un-meshed fluid layers are topologically flattened into an observable vacuum due to Planck-scale resolution filters, while the entire cosmos is structurally clamped and preserved by metamorphic cryogenic thermal contraction against an absolute external void. Finally, we provide a concrete, laboratory-scale experimental design utilizing cryogenic BEC cavitation to serve as the definitive falsifiability metric for this framework 1.4. Keywords: Superfluid Vacuum Theory, Analog Gravity, Bose-Einstein Condensates, Acoustic Horizon Metrics, Quantum Non-Locality, Hubble Tension. 3, 4
Cai Yang (Tue,) studied this question.