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Article Dans Une Revue Entropy Année : 2021

Generalized Ising Model on a Scale-Free Network: An Interplay of Power Laws

Résumé

We consider a recently introduced generalization of the Ising model in which individual spin strength can vary. The model is intended for analysis of ordering in systems comprising agents which, although matching in their binarity (i.e., maintaining the iconic Ising features of ‘+’ or ‘−’, ‘up’ or ‘down’, ‘yes’ or ‘no’), differ in their strength. To investigate the interplay between variable properties of nodes and interactions between them, we study the model on a complex network where both the spin strength and degree distributions are governed by power laws. We show that in the annealed network approximation, thermodynamic functions of the model are self-averaging and we obtain an exact solution for the partition function. This allows us derive the leading temperature and field dependencies of thermodynamic functions, their critical behavior, and logarithmic corrections at the interface of different phases. We find the delicate interplay of the two power laws leads to new universality classes.

Dates et versions

hal-03337987 , version 1 (08-09-2021)

Identifiants

Citer

Mariana Krasnytska, Bertrand Berche, Yurij Holovatch, Ralph Kenna. Generalized Ising Model on a Scale-Free Network: An Interplay of Power Laws. Entropy, 2021, 23 (9), pp.1175. ⟨10.3390/e23091175⟩. ⟨hal-03337987⟩
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