In the Standard Model, the strong nuclear force is mediated by virtual gluons, while color charge ensures hadronic stability. This paper explores a qualitative geometric and deterministic analogue within the Concentric Shell Theory (CST). By modeling elementary particles as dynamic scalar wavefields (r, t) = (kr) /r (t +), an investigation of the spatial and temporal interaction of a 2D three-body toy model is presented. It is proposed that the primary radial valley of the wavefield acts as a Topological Gluon, providing a localized kinematic trapping region for adjacent cores. Furthermore, numerical analysis demonstrates that a symmetric 2/3 temporal phase shift—a proposed geometric analogue to color charge—cancels the macroscopic time-dependent fluctuations of the isolated interaction energy (U₈₍ₓ), yielding a strictly constant energetic state. This provides exploratory evidence that confinement-like features and temporal stability may emerge as qualitative geometric consequences of wavefield interference.
Ernesto De Luca (Sun,) studied this question.