Interlayer-interaction dependence of latent heat in the Heisenberg model on a stacked triangular lattice with competing interactions

Ryo Tamura; Shu Tanaka

doi:10.1103/PhysRevE.88.052138

Interlayer-interaction dependence of latent heat in the Heisenberg model on a stacked triangular lattice with competing interactions

Ryo Tamura, Shu Tanaka

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Abstract

We study the phase transition behavior of a frustrated Heisenberg model on a stacked triangular lattice by Monte Carlo simulations. The model has three types of interactions: the ferromagnetic nearest-neighbor interaction J ₁ and antiferromagnetic third nearest-neighbor interaction J ₃ in each triangular layer and the ferromagnetic interlayer interaction J_âŠ¥. Frustration comes from the intralayer interactions J₁ and J₃. We focus on the case that the order parameter space is SO(3)×C₃. We find that the model exhibits a first-order phase transition with breaking of the SO(3) and C₃ symmetries at finite temperature. We also discover that the transition temperature increases but the latent heat decreases as J _âŠ¥/J₁ increases, which is opposite to the behavior observed in typical unfrustrated three-dimensional systems.

Original language	English
Article number	052138
Journal	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume	88
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevE.88.052138
Publication status	Published - 2013 Nov 26
Externally published	Yes

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Statistics and Probability
Condensed Matter Physics

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title = "Interlayer-interaction dependence of latent heat in the Heisenberg model on a stacked triangular lattice with competing interactions",

abstract = "We study the phase transition behavior of a frustrated Heisenberg model on a stacked triangular lattice by Monte Carlo simulations. The model has three types of interactions: the ferromagnetic nearest-neighbor interaction J 1 and antiferromagnetic third nearest-neighbor interaction J 3 in each triangular layer and the ferromagnetic interlayer interaction J{\^a}{\v S}¥. Frustration comes from the intralayer interactions J1 and J3. We focus on the case that the order parameter space is SO(3)×C3. We find that the model exhibits a first-order phase transition with breaking of the SO(3) and C3 symmetries at finite temperature. We also discover that the transition temperature increases but the latent heat decreases as J {\^a}{\v S}¥/J1 increases, which is opposite to the behavior observed in typical unfrustrated three-dimensional systems.",

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N2 - We study the phase transition behavior of a frustrated Heisenberg model on a stacked triangular lattice by Monte Carlo simulations. The model has three types of interactions: the ferromagnetic nearest-neighbor interaction J 1 and antiferromagnetic third nearest-neighbor interaction J 3 in each triangular layer and the ferromagnetic interlayer interaction JâŠ¥. Frustration comes from the intralayer interactions J1 and J3. We focus on the case that the order parameter space is SO(3)×C3. We find that the model exhibits a first-order phase transition with breaking of the SO(3) and C3 symmetries at finite temperature. We also discover that the transition temperature increases but the latent heat decreases as J âŠ¥/J1 increases, which is opposite to the behavior observed in typical unfrustrated three-dimensional systems.

AB - We study the phase transition behavior of a frustrated Heisenberg model on a stacked triangular lattice by Monte Carlo simulations. The model has three types of interactions: the ferromagnetic nearest-neighbor interaction J 1 and antiferromagnetic third nearest-neighbor interaction J 3 in each triangular layer and the ferromagnetic interlayer interaction JâŠ¥. Frustration comes from the intralayer interactions J1 and J3. We focus on the case that the order parameter space is SO(3)×C3. We find that the model exhibits a first-order phase transition with breaking of the SO(3) and C3 symmetries at finite temperature. We also discover that the transition temperature increases but the latent heat decreases as J âŠ¥/J1 increases, which is opposite to the behavior observed in typical unfrustrated three-dimensional systems.

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Interlayer-interaction dependence of latent heat in the Heisenberg model on a stacked triangular lattice with competing interactions

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