Recent observations from the James Webb Space Telescope (JWST) have revealed the existence of massive, structured, and optically mature galaxies at extreme redshifts 𝑧 > 10, challenging the standard hierarchical cosmological model ( ΛCDM), which predicts gravitational accretion formation times incompatible with the assumed age of the universe. In this work, applying the framework of Quantum Diffusion (DQ-12), we propose that the universe did not operate under slow hierarchical growth from an absolute vacuum. Modeling space as a continuous topological fluid, we interpret the Big Bang as a local event of macro-cavitation and thermodynamic relaxation. Under this approach, primordial galaxies did not form by accretive gravity but emerged almost instantaneously as dissipative macro-vortices to alleviate the extreme geometric friction of the medium. Additionally, we re-evaluate cosmological redshift not as a metric expansion of space, but as a loss of energy due to topological drag (space friction) experienced by photons over intergalactic distances.
VARCO et al. (Fri,) studied this question.