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Autori principali: Nascimento, R. M. L., DaSilva, Claudio J., Ferreira, L. S., Caparica, A. A.
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2305.03127
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author Nascimento, R. M. L.
DaSilva, Claudio J.
Ferreira, L. S.
Caparica, A. A.
author_facet Nascimento, R. M. L.
DaSilva, Claudio J.
Ferreira, L. S.
Caparica, A. A.
contents In this work, we study and evaluate the impact of a periodic spin-lattice coupling in an Ising-like system on a 2D triangular lattice. Our proposed simple Hamiltonian considers this additional interaction as an effect of preferential phonon propagation direction augmented by the symmetry ofthe underline lattice. The simplified analytical description of this new model brought us consistent information about its ground state and thermal behavior, and allowed us to highlight a singularity where the model behaves as several decoupled one-dimensional Ising systems. A thorough analysis was obtained via entropic simulations based in the Wang-Landau method that estimates the density of states g(E) to explore the phase diagram and other thermodynamic properties of interest. Also, we used the finite size scaling technique to characterize the critical exponents and the nature of the phase transitions that, despite the strong influence of the spin-lattice coupling, turned out to be within the same universality class as the original 2D Ising model.
format Preprint
id arxiv_https___arxiv_org_abs_2305_03127
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle 2D triangular Ising model with bond phonons: An entropic simulation study
Nascimento, R. M. L.
DaSilva, Claudio J.
Ferreira, L. S.
Caparica, A. A.
Statistical Mechanics
In this work, we study and evaluate the impact of a periodic spin-lattice coupling in an Ising-like system on a 2D triangular lattice. Our proposed simple Hamiltonian considers this additional interaction as an effect of preferential phonon propagation direction augmented by the symmetry ofthe underline lattice. The simplified analytical description of this new model brought us consistent information about its ground state and thermal behavior, and allowed us to highlight a singularity where the model behaves as several decoupled one-dimensional Ising systems. A thorough analysis was obtained via entropic simulations based in the Wang-Landau method that estimates the density of states g(E) to explore the phase diagram and other thermodynamic properties of interest. Also, we used the finite size scaling technique to characterize the critical exponents and the nature of the phase transitions that, despite the strong influence of the spin-lattice coupling, turned out to be within the same universality class as the original 2D Ising model.
title 2D triangular Ising model with bond phonons: An entropic simulation study
topic Statistical Mechanics
url https://arxiv.org/abs/2305.03127