Phase Transition Properties of 3D Potts Models

Alexei Bazavov; Bernd A. Berg; Santosh Dubey

arXiv:0804.1402·hep-lat·November 26, 2008

Phase Transition Properties of 3D Potts Models

Alexei Bazavov, Bernd A. Berg, Santosh Dubey

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TL;DR

This paper investigates the phase transition characteristics of 3D Potts models with q=4 to 10 using multicanonical Metropolis simulations, providing detailed thermodynamic and interfacial data.

Contribution

It offers new estimates of phase transition parameters for 3D Potts models across multiple q values using advanced simulation techniques.

Findings

01

Transition temperatures and latent heats determined

02

Interfacial tensions and entropy gaps quantified

03

Spinodal endpoints identified

Abstract

Using multicanonical Metropolis simulations we estimate phase transition properties of 3D Potts models for q=4 to 10: The transition temperatures, latent heats, entropy gaps, normalized entropies at the disordered and ordered endpoints, interfacial tensions, and spinodal endpoints.

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