Probing phase transition order of q -state Potts models using Wang-Landau algorithm

Surungan T.

Aip Conference Proceedings

Published: 2014Citations: 7

Abstract

Phase transitions are ubiquitous phenomena, exemplified by the melting of ice and spontaneous magnetization of magnetic material. In general, a phase transition is associated with a symmetry breaking of a system; occurs due to the competition between coupling interaction and external fields such as thermal energy. If the phase transition occurs with no latent heat, the system experiences continuous transition, also known as second order phase transition. The ferromagnetic q-state Potts model with r extra invisible states, introduced by Tamura, Tanaka, and Kawashima [Prog. Theor. Phys. 124, 381 (2010)], is studied by using the Wang-Landau method. The density of states difference (DOSD), ln g(E + ΔE) − ln g(E), is used to investigate the order of the phase transition and examine the critical value of r changing the second to the first order transition.

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10.1063/1.4897109

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Phase transitionSciences

Potts modelSciences

Condensed matter physicsSciences

FerromagnetismSciences

Latent heatSciences

MagnetizationSciences

PhysicsSciences

Symmetry breakingSciences

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Coupling (piping)Sciences

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Probing phase transition order of q -state Potts models using Wang-Landau algorithm

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Probing phase transition order of q -state Potts models using Wang-Landau algorithm

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