Mechanism of lattice-distortion-induced electric-polarization flop in the multiferroic perovskite manganites

Masahito Mochizuki; Nobuo Furukawa

doi:10.1143/JPSJ.78.053704

Mechanism of lattice-distortion-induced electric-polarization flop in the multiferroic perovskite manganites

Masahito Mochizuki^*, Nobuo Furukawa

^*Corresponding author for this work

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

38 Citations (Scopus)

Abstract

We theoretically study a competition between two types of spin cycloids (ab-plane and bc-plane ones) in the multiferroic perovskite manganites, which is an origin of intriguing magnetoelectric phenomena in these compounds. Analysis of a microscopic model using the Monte-Carlo method reveals that their competition originates from a conflict between the single-ion anisotropy and the Dzyaloshinsky-Moriya interaction. It is demonstrated that the conflict can be controlled by tuning the second-neighbor spin exchanges through the GdFeO ₃-type distortion, which leads to a cycloidal-plane flop from ab to bc observed in the solid-solution systems like Eu _1-xY _xMnO ₃ and Gd _1-xTb _xMnO ₃ with increasing x.

Original language	English
Article number	053704
Journal	journal of the physical society of japan
Volume	78
Issue number	5
DOIs	https://doi.org/10.1143/JPSJ.78.053704
Publication status	Published - 2009 May 1
Externally published	Yes

Keywords

Dzyaloshinskii-moriya interaction
Mn perovskite
Multiferroics
Phase diagram

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1143/JPSJ.78.053704

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abstract = "We theoretically study a competition between two types of spin cycloids (ab-plane and bc-plane ones) in the multiferroic perovskite manganites, which is an origin of intriguing magnetoelectric phenomena in these compounds. Analysis of a microscopic model using the Monte-Carlo method reveals that their competition originates from a conflict between the single-ion anisotropy and the Dzyaloshinsky-Moriya interaction. It is demonstrated that the conflict can be controlled by tuning the second-neighbor spin exchanges through the GdFeO 3-type distortion, which leads to a cycloidal-plane flop from ab to bc observed in the solid-solution systems like Eu 1-xY xMnO 3 and Gd 1-xTb xMnO 3 with increasing x.",

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AU - Furukawa, Nobuo

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N2 - We theoretically study a competition between two types of spin cycloids (ab-plane and bc-plane ones) in the multiferroic perovskite manganites, which is an origin of intriguing magnetoelectric phenomena in these compounds. Analysis of a microscopic model using the Monte-Carlo method reveals that their competition originates from a conflict between the single-ion anisotropy and the Dzyaloshinsky-Moriya interaction. It is demonstrated that the conflict can be controlled by tuning the second-neighbor spin exchanges through the GdFeO 3-type distortion, which leads to a cycloidal-plane flop from ab to bc observed in the solid-solution systems like Eu 1-xY xMnO 3 and Gd 1-xTb xMnO 3 with increasing x.

AB - We theoretically study a competition between two types of spin cycloids (ab-plane and bc-plane ones) in the multiferroic perovskite manganites, which is an origin of intriguing magnetoelectric phenomena in these compounds. Analysis of a microscopic model using the Monte-Carlo method reveals that their competition originates from a conflict between the single-ion anisotropy and the Dzyaloshinsky-Moriya interaction. It is demonstrated that the conflict can be controlled by tuning the second-neighbor spin exchanges through the GdFeO 3-type distortion, which leads to a cycloidal-plane flop from ab to bc observed in the solid-solution systems like Eu 1-xY xMnO 3 and Gd 1-xTb xMnO 3 with increasing x.

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KW - Mn perovskite

KW - Multiferroics

KW - Phase diagram

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Mechanism of lattice-distortion-induced electric-polarization flop in the multiferroic perovskite manganites

Abstract

Keywords

ASJC Scopus subject areas

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