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Dynamic percolation transition induced by phase separation: A Monte Carlo analysis (1987)

Hayward, S. ; Heermann, Dieter W. ; Binder, K.

Springer

Journal of statistical physics 49 (1987), S. 1053-1081

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ISSN: 1572-9613

Schlagwort(e): Percolation ; phase separation ; Monte Carlo simulation ; lattice gas model ; finite-size scaling

Quelle: Springer Online Journal Archives 1860-2000

Thema: Physik

Notizen: Abstract The percolation transition of geometric clusters in the three-dimensional, simple cubic, nearest neighbor Ising lattice gas model is investigated in the temperature and concentration region inside the coexistence curve. We consider “quenching experiments,” where the system starts from an initially completely random configuration (corresponding to equilibrium at infinite temperature), letting the system evolve at the considered temperature according to the Kawasaki “spinexchange” dynamics. Analyzing the distributionn l(t) of clusters of sizel at timet, we find that after a time of the order of about 100 Monte Carlo steps per site a percolation transition occurs at a concentration distinctly lower than the percolation concentration of the initial random state. This dynamic percolation transition is analyzed with finite-size scaling methods. While at zero temperature, where the system settles down at a frozen-in cluster distribution and further phase separation stops, the critical exponents associated with this percolation transition are consistent with the universality class of random percolation, the critical behavior of the transient time-dependent percolation occurring at nonzero temperature possibly belongs to a different, new universality class.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01017560

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Digitale Medien

Monte Carlo study of the ising model phase transition in terms of the percolation transition of “physical clusters” (1990)

Meo, Marco D'Onorio ; Heermann, Dieter W. ; Binder, Kurt

Springer

Journal of statistical physics 60 (1990), S. 585-618

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ISSN: 1572-9613

Schlagwort(e): Percolation ; “physical clusters” ; Ising model ; Monte Carlo simulation ; finite-size scaling ; Fortuin-Kasteleyn representation ; Swendsen-Wang algorithm

Quelle: Springer Online Journal Archives 1860-2000

Thema: Physik

Notizen: Abstract Finite squareL×L Ising lattices with ferromagnetic nearest neighbor interaction are simulated using the Swendsen-Wang cluster algorithm. Both thermal properties (internal energyU, specific heatC, magnetization 〈|M|〉, susceptibilityχ) and percolation cluster properties relating to the “physical clusters,” namely the Fortuin-Kasteleyn clusters (percolation probability 〈P ∞〉, percolation susceptibilityχ p, cluster size distributionn l) are evaluated, paying particular attention to finite-size effects. It is shown that thermal properties can be expressed entirely in terms of cluster properties, 〈P ∞〉 being identical to 〈|M|〉 in the thermodynamic limit, while finite-size corrections differ. In contrast,χ p differs fromχ even in the thermodynamic limit, since a fluctuation in the size of the percolating net contributes toχ, but not toχ p. NearT c the cluster size distribution has the scaling properties as hypothesized by earlier phenomenological theories. We also present a generalization of the Swendsen-Wang algorithm allowing one to cross over continuously to the Glauber dynamics.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01025984

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