Monte Carlo simulations of ABC stacked kagome lattice films

H. V. Yerzhakov; M. L. Plumer; J. P. Whitehead

doi:10.1088/0953-8984/28/19/196003

Monte Carlo simulations of ABC stacked kagome lattice films

H. V. Yerzhakov, M. L. Plumer, J. P. Whitehead

Memorial University of Newfoundland

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

3 Scopus citations

Abstract

Properties of films of geometrically frustrated ABC stacked antiferromagnetic kagome layers are examined using Metropolis Monte Carlo simulations. The impact of having an easy-axis anisotropy on the surface layers and cubic anisotropy in the interior layers is explored. The spin structure at the surface is shown to be different from that of the bulk 3D fcc system, where surface axial anisotropy tends to align spins along the surface [1 1 1] normal axis. This alignment then propagates only weakly to the interior layers through exchange coupling. Results are shown for the specific heat, magnetization and sub-lattice order parameters for both surface and interior spins in three and six layer films as a function of increasing axial surface anisotropy. Relevance to the exchange bias phenomenon in IrMn₃ films is discussed.

Original language	English
Article number	196003
Journal	Journal of Physics Condensed Matter
Volume	28
Issue number	19
DOIs	https://doi.org/10.1088/0953-8984/28/19/196003
State	Published - 19 Apr 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 IOP Publishing Ltd.

Keywords

Heisenberg model
Monte Carlo simulations
kagome lattice
surface anisotropy

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10.1088/0953-8984/28/19/196003

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abstract = "Properties of films of geometrically frustrated ABC stacked antiferromagnetic kagome layers are examined using Metropolis Monte Carlo simulations. The impact of having an easy-axis anisotropy on the surface layers and cubic anisotropy in the interior layers is explored. The spin structure at the surface is shown to be different from that of the bulk 3D fcc system, where surface axial anisotropy tends to align spins along the surface [1 1 1] normal axis. This alignment then propagates only weakly to the interior layers through exchange coupling. Results are shown for the specific heat, magnetization and sub-lattice order parameters for both surface and interior spins in three and six layer films as a function of increasing axial surface anisotropy. Relevance to the exchange bias phenomenon in IrMn3 films is discussed.",

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AU - Yerzhakov, H. V.

AU - Plumer, M. L.

AU - Whitehead, J. P.

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N2 - Properties of films of geometrically frustrated ABC stacked antiferromagnetic kagome layers are examined using Metropolis Monte Carlo simulations. The impact of having an easy-axis anisotropy on the surface layers and cubic anisotropy in the interior layers is explored. The spin structure at the surface is shown to be different from that of the bulk 3D fcc system, where surface axial anisotropy tends to align spins along the surface [1 1 1] normal axis. This alignment then propagates only weakly to the interior layers through exchange coupling. Results are shown for the specific heat, magnetization and sub-lattice order parameters for both surface and interior spins in three and six layer films as a function of increasing axial surface anisotropy. Relevance to the exchange bias phenomenon in IrMn3 films is discussed.

AB - Properties of films of geometrically frustrated ABC stacked antiferromagnetic kagome layers are examined using Metropolis Monte Carlo simulations. The impact of having an easy-axis anisotropy on the surface layers and cubic anisotropy in the interior layers is explored. The spin structure at the surface is shown to be different from that of the bulk 3D fcc system, where surface axial anisotropy tends to align spins along the surface [1 1 1] normal axis. This alignment then propagates only weakly to the interior layers through exchange coupling. Results are shown for the specific heat, magnetization and sub-lattice order parameters for both surface and interior spins in three and six layer films as a function of increasing axial surface anisotropy. Relevance to the exchange bias phenomenon in IrMn3 films is discussed.

KW - Heisenberg model

KW - Monte Carlo simulations

KW - kagome lattice

KW - surface anisotropy

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Monte Carlo simulations of ABC stacked kagome lattice films

Abstract

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