Nonmonotonic relaxation in systems with reentrant-type interaction

Seiji Miyashita; Shu Tanaka; Masaki Hirano

doi:10.1143/JPSJ.76.083001

Nonmonotonic relaxation in systems with reentrant-type interaction

Seiji Miyashita^*, Shu Tanaka, Masaki Hirano

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Recently, interesting nonmonotonic time evolution has been pointed out in the experiments by Jönsson et al. and Jonsson et al. and also in the numerical simulation by Takayama and Hukushima, where the magnetic susceptibility does not monotonically relax to the equilibrium value, but moves to the opposite side. We study the mechanism of this puzzling nonmonotonic dynamical property in a frustrated Ising model in which the equilibrium correlation exhibits nonmonotonic temperature dependence (reentrant type). We study the time evolution of the spin correlation function after a sudden change of temperature. We find that the value of the correlation function shows nonmonotonic relaxation, and we analyze the mechanisms of the nonmonotonicity. We also point out that competition between different configurations generally causes nonmonotonic relaxation.

Original language	English
Article number	083001
Journal	Journal of the Physical Society of Japan
Volume	76
Issue number	8
DOIs	https://doi.org/10.1143/JPSJ.76.083001
Publication status	Published - 2007 Aug
Externally published	Yes

Keywords

Decoration bond
Frustration
Ising spin system
Reentrant phase transition
Relaxation

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1143/JPSJ.76.083001

Cite this

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title = "Nonmonotonic relaxation in systems with reentrant-type interaction",

abstract = "Recently, interesting nonmonotonic time evolution has been pointed out in the experiments by J{\"o}nsson et al. and Jonsson et al. and also in the numerical simulation by Takayama and Hukushima, where the magnetic susceptibility does not monotonically relax to the equilibrium value, but moves to the opposite side. We study the mechanism of this puzzling nonmonotonic dynamical property in a frustrated Ising model in which the equilibrium correlation exhibits nonmonotonic temperature dependence (reentrant type). We study the time evolution of the spin correlation function after a sudden change of temperature. We find that the value of the correlation function shows nonmonotonic relaxation, and we analyze the mechanisms of the nonmonotonicity. We also point out that competition between different configurations generally causes nonmonotonic relaxation.",

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author = "Seiji Miyashita and Shu Tanaka and Masaki Hirano",

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T1 - Nonmonotonic relaxation in systems with reentrant-type interaction

AU - Miyashita, Seiji

AU - Tanaka, Shu

AU - Hirano, Masaki

PY - 2007/8

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N2 - Recently, interesting nonmonotonic time evolution has been pointed out in the experiments by Jönsson et al. and Jonsson et al. and also in the numerical simulation by Takayama and Hukushima, where the magnetic susceptibility does not monotonically relax to the equilibrium value, but moves to the opposite side. We study the mechanism of this puzzling nonmonotonic dynamical property in a frustrated Ising model in which the equilibrium correlation exhibits nonmonotonic temperature dependence (reentrant type). We study the time evolution of the spin correlation function after a sudden change of temperature. We find that the value of the correlation function shows nonmonotonic relaxation, and we analyze the mechanisms of the nonmonotonicity. We also point out that competition between different configurations generally causes nonmonotonic relaxation.

AB - Recently, interesting nonmonotonic time evolution has been pointed out in the experiments by Jönsson et al. and Jonsson et al. and also in the numerical simulation by Takayama and Hukushima, where the magnetic susceptibility does not monotonically relax to the equilibrium value, but moves to the opposite side. We study the mechanism of this puzzling nonmonotonic dynamical property in a frustrated Ising model in which the equilibrium correlation exhibits nonmonotonic temperature dependence (reentrant type). We study the time evolution of the spin correlation function after a sudden change of temperature. We find that the value of the correlation function shows nonmonotonic relaxation, and we analyze the mechanisms of the nonmonotonicity. We also point out that competition between different configurations generally causes nonmonotonic relaxation.

KW - Decoration bond

KW - Frustration

KW - Ising spin system

KW - Reentrant phase transition

KW - Relaxation

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Nonmonotonic relaxation in systems with reentrant-type interaction

Abstract

Keywords

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