The article presents a new model of quantum mechanics, in which the electron is described as a vortex within a “super-vacuum” resembling a superfluid. This model seeks to resolve interpretative issues in the standard framework by replacing the probabilistic description of the electron with a deterministic one, grounded in physical geometry.
According to the article, quantum phenomena such as wavelength, spin, and energy quantization arise directly from the structure and dynamics of the vortex, instead of relying on quantum potentials or the collapse of the wave function. The model also provides deterministic explanations for phenomena like interference, tunneling, and entanglement, while presenting Born’s rule as a derived statistical effect. It suggests the potential for unifying classical, quantum, and relativistic theories, restoring the principle of causality to the heart of quantum physics.
