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Abstract

Abstract

Magnetoelectric multiferroics is an old but emerging class of materials that combine coupled electric and magnetic dipole order. In these materials, ferroelectric and magnetic (ferromagnetic or antiferromagnetic) states coexist or compete with each other. The interaction leads to a so-called magnetoelectric effect, which is the induction of magnetization by an electric field or electric polarization by a magnetic field. In the past few years, a new set of magnetoelectric multiferroics such as TbMnO3 and Ni3VO has been discovered. In these magnetoelectric multiferroics, ferroelectric order develops upon a magnetic phase transition into a spiral magnetic ordered phase. In addition, these systems show large magnetoelectric effects accompanied by metamagnetic transitions. Noncollinear spiral magnetism is the key to understanding the magnetoelectric properties in these systems. Here I discuss the magnetoelectric coupling in spiral magnets and review recent advances in the understanding of ferroelectricity and the magnetoelectric effect in these new multiferroics. The studies presented here indicate that spiral magnets are promising candidates for magnetoelectrics showing large magnetoelectric effects at low magnetic fields.

[Erratum, Closure]

An erratum has been published for this article:
Spiral Magnets as Magnetoelectrics
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/content/journals/10.1146/annurev.matsci.37.052506.084259
2007-08-04
2024-03-29
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  • Article Type: Review Article
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