Ising model with invisible states on scale-free networks

Publication date: Available online 19 July 2019Source: Physics Letters AAuthor(s): Petro Sarkanych, Mariana KrasnytskaAbstractWe consider the Ising model with invisible states on scale-free networks. Our goal is to investigate the interplay between the entropic and topological influence on a phase transition. The former is manifest through the number of invisible states r, while the latter is controlled by the network node-degree distribution decay exponent λ. We show that the phase diagram, in this case, is characterised by two marginal values rc1(λ) and rc2(λ), which separate regions with different critical behaviours. Below the rc1(λ) line the system undergoes only second order phase transition; above the rc2(λ) – only a first order phase transition occurs; and in-between the lines both of these phase transitions occur at different temperatures. This behaviour differs from the one, observed on the lattice, where the Ising model with invisible states is only characterised with one marginal value rc≃3.62 separating the first and second order regimes.
Source: Physics Letters A - Category: Physics Source Type: research
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