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Quartic balance theory: Global minimum with imbalanced triangles

Amir Kargaran, M. Ebrahimi, Mohammad R. Riazi, Ali Hosseiny, G. R. Jafari

2020Physical review. E27 citationsDOIOpen Access PDF

Abstract

Balance theory proposed by Heider for the first time modeled triplet interaction in a signed network, stating that relationships between two people, friendship or enmity, is dependent on a third person. The Hamiltonian of this model has an implicit assumption that all triads are independent, meaning that the type of each triad, being balanced or imbalanced, determined apart from the state of other triads. This independence forces the network to have completely balanced final states. However, there exists evidence indicating that real networks are partially balanced, raising the question of what is the mechanism preventing the system to be perfectly balanced. Our suggestion is to consider a quartic interaction which dissolves the triad's independence. We use the mean-field method to study the thermal behavior of such systems where the temperature is a parameter that allows the stochastic behavior of agents. We show that under a certain temperature, the symmetry between balanced and imbalanced triads will spontaneously break and we have a discrete phase transition. As a consequence, stability arises where either similar balanced or imbalanced triads dominate, hence the system obtains two new imbalanced stable states. In this model, the critical temperature depends on the second power of the number of nodes, which was a linear dependence in thermal balance theory. Our simulations are in good agreement with the results obtained by the mean-field method.

Topics & Concepts

Quartic functionIndependence (probability theory)Balance (ability)MathematicsHamiltonian (control theory)Statistical physicsPhysicsMathematical optimizationPure mathematicsStatisticsPsychologyNeuroscienceComplex Network Analysis TechniquesOpinion Dynamics and Social InfluenceMental Health Research Topics