In-Depth Investigation of Phase Transition Phenomena in Network Models Derived from Lattice Models

Abstract

Lattice models exhibit significant potential in investigating phase transitions, yet they encounter numerous computational challenges. To address these issues, this study introduces a Monte Carlo-based approach that transforms lattice models into a network model with intricate inter-node correlations. This framework enables a profound analysis of Ising, JQ, and XY models. By decomposing the network into a maximum entropy and a conservative component, under the constraint of detailed balance, this work derive an estimation formula for the temperature-dependent magnetic induction in Ising models. Notably, the critical exponent β in the Ising model aligns well with established results, and the predicted phase transition point in the three-dimensional Ising model exhibits a mere 0.7 \% deviation from numerical simulations.

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