In earlier work, spin‑1/2 particles were identified with unit‑winding topological solitons (skyrmions) in an SU (2) field. The global conservation of winding number, together withrotational invariance of the vacuum, forces a pair created from the vacuum into the spinsinglet. Here we extend the framework to higher winding numbers. Solitons with topologicalcharge Q=2 are shown to carry spin‑1, i. e. \ they behave as bosons. When a Q=+2double knot and two Q=-1 anti‑knots are created from the vacuum, rotational invarianceand charge conservation require the system to be in a total spin‑zero state. We constructthe explicit three‑body wave function using standard angular‑momentum coupling. Theresulting state exhibits genuine tripartite entanglement with specific spin‑spincorrelations that are a direct consequence of the topological constraint. Thesecorrelations can be tested in hadronic reactions or engineered magnetic skyrmion systems, providing a falsifiable signature of the topological defect model.
A.B.M MASUM BILLAH MIM (Wed,) studied this question.
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