Superexchange-Driven Magnetoelectricity in Magnetic Vortices

Kris T. Delaney; Maxim Mostovoy; Nicola A. Spaldin

doi:10.1103/PhysRevLett.102.157203

Superexchange-Driven Magnetoelectricity in Magnetic Vortices

Kris T. Delaney^*, Maxim Mostovoy, Nicola A. Spaldin

^*Corresponding author for this work

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

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Abstract

We demonstrate that magnetic vortices in which spins are coupled to polar lattice distortions via superexchange exhibit an unusually large linear magnetoelectric response. We show that the periodic arrays of vortices formed by frustrated spins on kagome lattices provide a realization of this concept; our ab initio calculations for such a model structure yield a magnetoelectric coefficient that is 30 times larger than that of prototypical single phase magnetoelectrics. Finally, we identify the design rules required to obtain such a response in a practical material.

Original language	English
Article number	157203
Pages (from-to)	157203-1-157203-4
Number of pages	4
Journal	Physical Review Letters
Volume	102
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.102.157203
Publication status	Published - 17-Apr-2009

Keywords

FERROELECTRICITY
POLARIZATION
LATTICE
YMNO3

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title = "Superexchange-Driven Magnetoelectricity in Magnetic Vortices",

abstract = "We demonstrate that magnetic vortices in which spins are coupled to polar lattice distortions via superexchange exhibit an unusually large linear magnetoelectric response. We show that the periodic arrays of vortices formed by frustrated spins on kagome lattices provide a realization of this concept; our ab initio calculations for such a model structure yield a magnetoelectric coefficient that is 30 times larger than that of prototypical single phase magnetoelectrics. Finally, we identify the design rules required to obtain such a response in a practical material.",

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N2 - We demonstrate that magnetic vortices in which spins are coupled to polar lattice distortions via superexchange exhibit an unusually large linear magnetoelectric response. We show that the periodic arrays of vortices formed by frustrated spins on kagome lattices provide a realization of this concept; our ab initio calculations for such a model structure yield a magnetoelectric coefficient that is 30 times larger than that of prototypical single phase magnetoelectrics. Finally, we identify the design rules required to obtain such a response in a practical material.

AB - We demonstrate that magnetic vortices in which spins are coupled to polar lattice distortions via superexchange exhibit an unusually large linear magnetoelectric response. We show that the periodic arrays of vortices formed by frustrated spins on kagome lattices provide a realization of this concept; our ab initio calculations for such a model structure yield a magnetoelectric coefficient that is 30 times larger than that of prototypical single phase magnetoelectrics. Finally, we identify the design rules required to obtain such a response in a practical material.

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KW - POLARIZATION

KW - LATTICE

KW - YMNO3

U2 - 10.1103/PhysRevLett.102.157203

DO - 10.1103/PhysRevLett.102.157203

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JO - Physical Review Letters

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ER -

Superexchange-Driven Magnetoelectricity in Magnetic Vortices

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Keywords

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