This document redefines the nature of "electric charge," eliminating its classical conception as an intrinsic and inexplicable property of matter. Under the Quantum Diffusion (DQ) Framework, charge is strictly postulated as the topological chirality (geometric twist direction) of a stable perturbation in the 12-dimensional Electromagnetic Tensor (EMT 𝐹μν). The historical designation of "negative" and "positive" charges translates mechanically into left-handed and right-handed twists of the hyper-orthogonal spatial metric. Using this geometric model, electrostatic attraction is explained as the complementary tensor engagement that maximizes local diffusivity (EMT 𝐷 → 1), while repulsion emerges as the elastic response of the vacuum to extreme gauge friction (EMT 𝐷 → 0) generated by the collision of identical chiralities. The DQ Framework thus unifies the electrostatic Coulomb force with differential topology.
VARCO et al. (Sat,) studied this question.