Magnetic phases of cobalt atomic clusters on tungsten

Pavel V. Lukashev; Ji Hyun Kim; Seolun Yang; Jae Sung Kim; Xumin Chen; Geoffrey Rojas; Jan Honolka; Ralph Skomski; Axel Enders; Renat F. Sabirianov

doi:10.1088/0953-8984/25/3/036003

Magnetic phases of cobalt atomic clusters on tungsten

Pavel V. Lukashev, Ji Hyun Kim, Seolun Yang, Jae Sung Kim, Xumin Chen, Geoffrey Rojas, Jan Honolka, Ralph Skomski, Axel Enders, Renat F. Sabirianov

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Abstract

First-principle calculations are employed to show that the magnetic structure of small atomic clusters of Co, formed on a crystalline W(110) surface and containing 3-12 atoms, strongly deviates from the usual stable ferromagnetism of Co in other systems. The clusters are ferri-, ferro- or non-magnetic, depending on cluster size and geometry. We determine the atomic Co moments and their relative alignment, and show that antiferromagnetic spin alignment in the Co clusters is caused by hybridization with the tungsten substrate and band filling. This is in contrast with the typical strong ferromagnetism of bulk Co alloys, and ferromagnetic coupling in Fe/W(110) clusters.

Original language	English (US)
Article number	036003
Journal	Journal of Physics Condensed Matter
Volume	25
Issue number	3
DOIs	https://doi.org/10.1088/0953-8984/25/3/036003
State	Published - Jan 23 2013

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title = "Magnetic phases of cobalt atomic clusters on tungsten",

abstract = "First-principle calculations are employed to show that the magnetic structure of small atomic clusters of Co, formed on a crystalline W(110) surface and containing 3-12 atoms, strongly deviates from the usual stable ferromagnetism of Co in other systems. The clusters are ferri-, ferro- or non-magnetic, depending on cluster size and geometry. We determine the atomic Co moments and their relative alignment, and show that antiferromagnetic spin alignment in the Co clusters is caused by hybridization with the tungsten substrate and band filling. This is in contrast with the typical strong ferromagnetism of bulk Co alloys, and ferromagnetic coupling in Fe/W(110) clusters.",

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AU - Lukashev, Pavel V.

AU - Kim, Ji Hyun

AU - Yang, Seolun

AU - Kim, Jae Sung

AU - Chen, Xumin

AU - Rojas, Geoffrey

AU - Honolka, Jan

AU - Skomski, Ralph

AU - Enders, Axel

AU - Sabirianov, Renat F.

PY - 2013/1/23

Y1 - 2013/1/23

N2 - First-principle calculations are employed to show that the magnetic structure of small atomic clusters of Co, formed on a crystalline W(110) surface and containing 3-12 atoms, strongly deviates from the usual stable ferromagnetism of Co in other systems. The clusters are ferri-, ferro- or non-magnetic, depending on cluster size and geometry. We determine the atomic Co moments and their relative alignment, and show that antiferromagnetic spin alignment in the Co clusters is caused by hybridization with the tungsten substrate and band filling. This is in contrast with the typical strong ferromagnetism of bulk Co alloys, and ferromagnetic coupling in Fe/W(110) clusters.

AB - First-principle calculations are employed to show that the magnetic structure of small atomic clusters of Co, formed on a crystalline W(110) surface and containing 3-12 atoms, strongly deviates from the usual stable ferromagnetism of Co in other systems. The clusters are ferri-, ferro- or non-magnetic, depending on cluster size and geometry. We determine the atomic Co moments and their relative alignment, and show that antiferromagnetic spin alignment in the Co clusters is caused by hybridization with the tungsten substrate and band filling. This is in contrast with the typical strong ferromagnetism of bulk Co alloys, and ferromagnetic coupling in Fe/W(110) clusters.

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Magnetic phases of cobalt atomic clusters on tungsten

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