Unusual changeover in the transition nature of local-interaction Potts models

Schreiber, Nir; Cohen, Reuven; Haber, Simi; Amir, Gideon; Barzel, Baruch

doi:10.1103/physreve.100.052119

Cited by 4 publications

(7 citation statements)

References 31 publications

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“…where k #(k, n) ∼ μ n and the growth number μ in general depends on δ [23]. In making such fractals monochromatic, the entropy of the system is changed in the amount of ln #(k, n)q −k 0 q −(n−k) .…”

Section: The Standard Modelmentioning

confidence: 99%

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Changeover phenomenon in randomly colored Potts models

Schreiber¹,

Cohen²,

Amir³

et al. 2022

J. Stat. Mech.

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A hybrid Potts model where a random concentration p of the spins assume q 0 states and a random concentration 1 − p of the spins assume q > q 0 states is introduced. It is known that when the system is homogeneous, with an integer spin number q 0 or q, it undergoes a second or a first order transition, respectively. It is argued that there is a concentration p* such that the transition nature of the model is changed at p*. This idea is demonstrated analytically and by simulations for two different types of interaction: the usual square lattice nearest neighboring and mean field (MF) all-to-all. Exact expressions for the second order critical line in concentration-temperature parameter space of the MF model together with some other related critical properties, are derived.

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Section: The Standard Modelmentioning

confidence: 99%

“…More precisely, two dimensional systems accompanying the spontaneous breaking of the qfold Potts symmetry, are expected to maintain the changeover behavior of the standard model for a wide range of local interaction patterns. There are, however, a few counterexamples [23][24][25].…”

Section: Introductionmentioning

confidence: 99%

Changeover phenomenon in randomly colored Potts models

Schreiber¹,

Cohen²,

Amir³

et al. 2022

J. Stat. Mech.

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“…where k #(k, n) ∼ µ n for some 1 < µ ≤ λ depending on δ [38] and λ is the growth constant of all the fractals with n sites. The expected change in the number of states is given by #(k, n) q −k 0 q −(n−k) so that, assuming #(k, n) is narrowly distributed around its mean and using (3), the free energy per site can be written…”

Section: The Standard Modelmentioning

confidence: 99%

“…Strictly speaking, if at β solving f sim = 0 we have f frac ≥ 0, then it is entropically disadvantageous for the system to possess large fractals at that temperature. Instead, large simple monochromatic clusters are formed and the system undergoes a first order transition [38] at…”

Section: The Standard Modelmentioning

confidence: 99%

“…The WL method is specially designed to approximate the entropy S(E) ∝ ln Ω(E) where Ω(E) is the number of states with energy E, at any desired accuracy. This has been exploited to calculate the energy probability-distribution-function (PDF) for samples of various sizes L at pseudo-criticality, e.g., at a temperature where the specific heat is maximal [38,39]. While for a second order transition the pseudo-critical (PC) energy PDF is expected to display a single peak centred around the PC energy, in the first order transition case a double peaked distribution centred around the energies of the coexisting ordered and disordered states is conventional [40].…”

Section: The Standard Modelmentioning

confidence: 99%

See 1 more Smart Citation

Changeover phenomenon in randomly colored Potts models

Schreiber,

Cohen,

Amir

et al. 2021

Preprint

Self Cite

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A hybrid Potts model where a random concentration p of the spins assume q0 states and a random concentration 1−p of the spins assume q > q0 states is introduced. It is known that when the system is homogeneous, with an integer spin number q0 or q, it undergoes a second or a first order transition, respectively. It is argued that there is a concentration p * such that the transition nature of the model is changed at p * . This idea is demonstrated analytically and by simulations for two different types of interaction: the usual square lattice nearest neighboring and the mean field all-to-all interaction. Exact expressions for the second order critical line in concentration-temperature parameter space of the mean field model together with some other related critical properties, are derived.

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