We propose that the fundamental reality is a smooth, continuous SU (2) operator field onthree‑dimensional space. Particles are not independent objects but localized topologicaldefects (knots) in this field. Entanglement between two particles is the direct consequenceof a global topological constraint: the total winding number of the field over all space isfixed to zero. For a pair of defects created from the vacuum, this forces opposite topologicalcharges and, through quantization of the rotational collective coordinates, a total spin ofzero. The unique state satisfying these requirements is the spin singlet, from which thestandard Bell correlations follow automatically (the Born rule is applied as usual). We then supply the dynamical framework using the SU (2) Skyrme model, and derivedistance‑dependent corrections to the singlet correlation: (R/d) ⁶ for an uncontrolledinter‑defect axis and (R/d) ³ with a specific angular dependence when the axis is fixed. Extending to higher winding numbers, we construct the unique three‑body state of a Q=+2spin‑1 boson and two Q=-1 spin‑1/2 fermions, which exhibits genuine tripartiteentanglement with specific spin‑spin correlations. The framework provides a signal‑local, ontologically non‑local realist account of entanglement, with falsifiable predictions innucleon–nucleon scattering, hadronic reactions, and condensed‑matter skyrmion systems.
Mim A.B.M Masum Billah (Thu,) studied this question.