Spin-reorientation transition of field-induced magnetic ordering phases in the anisotropic Haldane system

Hiroshi Miyazaki; Tomohiko Hiwasa; Masataka Oko; Isao Harada

doi:10.1143/JPSJ.75.094708

Spin-reorientation transition of field-induced magnetic ordering phases in the anisotropic Haldane system

Hiroshi Miyazaki, Tomohiko Hiwasa, Masataka Oko, Isao Harada

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

7 Citations (Scopus)

Abstract

A possible spin-reorientation transition in field-induced magnetic ordering phases of the S = 1 Haldane system with large easy-plane anisotropy is proposed, using an effective Lagrangian formalism as well as the density matrix renormalization group method. Such a spin-reorientation transition is predicted in the case where the applied magnetic field is inclined from the easy axis of the anisotropy. We point out that this transition has a close connection with a variation of the order parameter even at zero temperature, although it is different from a quantum analog of the so-called spin-flop transition proposed for the system having a strong easy axis anisotropy. In connection with a novel phase observed recently in the Haldane system at high fields, we discuss possible implications for the field-induced magnetic ordering.

Original language	English
Article number	094708
Journal	journal of the physical society of japan
Volume	75
Issue number	9
DOIs	https://doi.org/10.1143/JPSJ.75.094708
Publication status	Published - Sept 2006
Externally published	Yes

Keywords

Anisotropic Haldane chain
Field-induced phase transition
Spin-reorientation

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1143/JPSJ.75.094708

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abstract = "A possible spin-reorientation transition in field-induced magnetic ordering phases of the S = 1 Haldane system with large easy-plane anisotropy is proposed, using an effective Lagrangian formalism as well as the density matrix renormalization group method. Such a spin-reorientation transition is predicted in the case where the applied magnetic field is inclined from the easy axis of the anisotropy. We point out that this transition has a close connection with a variation of the order parameter even at zero temperature, although it is different from a quantum analog of the so-called spin-flop transition proposed for the system having a strong easy axis anisotropy. In connection with a novel phase observed recently in the Haldane system at high fields, we discuss possible implications for the field-induced magnetic ordering.",

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AU - Miyazaki, Hiroshi

AU - Hiwasa, Tomohiko

AU - Oko, Masataka

AU - Harada, Isao

PY - 2006/9

Y1 - 2006/9

N2 - A possible spin-reorientation transition in field-induced magnetic ordering phases of the S = 1 Haldane system with large easy-plane anisotropy is proposed, using an effective Lagrangian formalism as well as the density matrix renormalization group method. Such a spin-reorientation transition is predicted in the case where the applied magnetic field is inclined from the easy axis of the anisotropy. We point out that this transition has a close connection with a variation of the order parameter even at zero temperature, although it is different from a quantum analog of the so-called spin-flop transition proposed for the system having a strong easy axis anisotropy. In connection with a novel phase observed recently in the Haldane system at high fields, we discuss possible implications for the field-induced magnetic ordering.

AB - A possible spin-reorientation transition in field-induced magnetic ordering phases of the S = 1 Haldane system with large easy-plane anisotropy is proposed, using an effective Lagrangian formalism as well as the density matrix renormalization group method. Such a spin-reorientation transition is predicted in the case where the applied magnetic field is inclined from the easy axis of the anisotropy. We point out that this transition has a close connection with a variation of the order parameter even at zero temperature, although it is different from a quantum analog of the so-called spin-flop transition proposed for the system having a strong easy axis anisotropy. In connection with a novel phase observed recently in the Haldane system at high fields, we discuss possible implications for the field-induced magnetic ordering.

KW - Anisotropic Haldane chain

KW - Field-induced phase transition

KW - Spin-reorientation

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Spin-reorientation transition of field-induced magnetic ordering phases in the anisotropic Haldane system

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