This article addresses and resolves the problem of non-locality in quantum entanglement—historically described by Albert Einstein as "spooky action at a distance"—through the lens of the Quantum Diffusion (DQ) Framework. It postulates that the apparent violation of the locality principle and the speed of light is an optical and geometric illusion arising from our perception limited to a 3D+1 space. Under the DQ Framework, two entangled particles are not separate discrete entities interacting at superluminal speed , but rather threedimensional intersections of a single continuous topological object in the 12-dimensional subspace 𝐹μν. The modification of the state of one "particle" constitutes a tensor rotation of the entire underlying matrix, manifesting instantaneously in both 3D projections. This model eliminates the need for non-local postulates, explaining decoherence as a breakdown of gauge symmetry and restoring absolute topological determinism to quantum mechanics.
VARCO et al. (Wed,) studied this question.