We consider the Schelling-like social competition reflected in "dynamics of opinions" among groups of agents ("communities") in a highly transparent world. Specifically, we investigate a q-state Potts spin system with competing two- and three-body interactions on a complete graph. Agents interact through pairwise repulsion (opposing opinions) between different communities and three-body attraction (shared opinions) within the same community. In the thermodynamic limit, we identify variants of three key phases: (a) a symmetric "mixed" phase of q states, in which no single opinion dominates in the society (interpreted as a "democracy"), (b) a symmetric "mixed" phase but of q-1 states, and (c) a "consensus" phase, characterized by the emergence of a dominant opinion (or "ideology"), coexisting with symmetrically distributed minority views. Monte-Carlo simulations reveal finite-size effects and metastable switching between configurations. Furthermore, we establish a correspondence between our social model on a complete graph and the mean-field SU (N) quantum spin system with both quadratic and cubic interactions, revealing a "social-quantum" duality. This duality provides new perspectives on both stratification of social communication, and quantum many-body phenomena, offering a unified framework for understanding emergent collective behavior in complex systems.
Akara-pipattana et al. (Wed,) studied this question.
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