Large spin-orbit splitting of surface states in ultrathin Au (111) films

Zhongyao Li; Shijing Gong; Zhongqin Yang

doi:10.1016/j.physleta.2012.11.008

Large spin-orbit splitting of surface states in ultrathin Au (111) films

Zhongyao Li, Shijing Gong, Zhongqin Yang

School of Physics and Electronic Science

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

5 Scopus citations

Abstract

Spin-orbit (SO) splitting of surface states in ultrathin Au films was examined on the basis of density-functional theory. Due to the interaction between the top and the bottom Au layers, the SO splitting in the Au (111) films with few atomic layers is usually negligible. The splitting is, however, detectable if one surface of the film is terminated by adatoms, such as Al or H atoms. Similar effect can also be achieved if an external electric field is applied perpendicular to the surface. In addition, an interesting even-odd oscillating behavior in the SO splitting can be observed in a Au/Al interlaced structure. All these can be explained by the inversion-symmetry breaking. Our work provides a deep understanding of the SO effect in ultrathin heavy-metal films, which will be helpful in future all-electric spintronics.

Original language	English
Pages (from-to)	129-132
Number of pages	4
Journal	Physics Letters, Section A: General, Atomic and Solid State Physics
Volume	377
Issue number	1-2
DOIs	https://doi.org/10.1016/j.physleta.2012.11.008
State	Published - 3 Dec 2012

Keywords

Metal film
Spin-orbit splitting
Surface state

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10.1016/j.physleta.2012.11.008

Cite this

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title = "Large spin-orbit splitting of surface states in ultrathin Au (111) films",

abstract = "Spin-orbit (SO) splitting of surface states in ultrathin Au films was examined on the basis of density-functional theory. Due to the interaction between the top and the bottom Au layers, the SO splitting in the Au (111) films with few atomic layers is usually negligible. The splitting is, however, detectable if one surface of the film is terminated by adatoms, such as Al or H atoms. Similar effect can also be achieved if an external electric field is applied perpendicular to the surface. In addition, an interesting even-odd oscillating behavior in the SO splitting can be observed in a Au/Al interlaced structure. All these can be explained by the inversion-symmetry breaking. Our work provides a deep understanding of the SO effect in ultrathin heavy-metal films, which will be helpful in future all-electric spintronics.",

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T1 - Large spin-orbit splitting of surface states in ultrathin Au (111) films

AU - Li, Zhongyao

AU - Gong, Shijing

AU - Yang, Zhongqin

PY - 2012/12/3

Y1 - 2012/12/3

N2 - Spin-orbit (SO) splitting of surface states in ultrathin Au films was examined on the basis of density-functional theory. Due to the interaction between the top and the bottom Au layers, the SO splitting in the Au (111) films with few atomic layers is usually negligible. The splitting is, however, detectable if one surface of the film is terminated by adatoms, such as Al or H atoms. Similar effect can also be achieved if an external electric field is applied perpendicular to the surface. In addition, an interesting even-odd oscillating behavior in the SO splitting can be observed in a Au/Al interlaced structure. All these can be explained by the inversion-symmetry breaking. Our work provides a deep understanding of the SO effect in ultrathin heavy-metal films, which will be helpful in future all-electric spintronics.

AB - Spin-orbit (SO) splitting of surface states in ultrathin Au films was examined on the basis of density-functional theory. Due to the interaction between the top and the bottom Au layers, the SO splitting in the Au (111) films with few atomic layers is usually negligible. The splitting is, however, detectable if one surface of the film is terminated by adatoms, such as Al or H atoms. Similar effect can also be achieved if an external electric field is applied perpendicular to the surface. In addition, an interesting even-odd oscillating behavior in the SO splitting can be observed in a Au/Al interlaced structure. All these can be explained by the inversion-symmetry breaking. Our work provides a deep understanding of the SO effect in ultrathin heavy-metal films, which will be helpful in future all-electric spintronics.

KW - Metal film

KW - Spin-orbit splitting

KW - Surface state

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U2 - 10.1016/j.physleta.2012.11.008

DO - 10.1016/j.physleta.2012.11.008

M3 - 文章

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SN - 0375-9601

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SP - 129

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JO - Physics Letters, Section A: General, Atomic and Solid State Physics

JF - Physics Letters, Section A: General, Atomic and Solid State Physics

IS - 1-2

ER -

Large spin-orbit splitting of surface states in ultrathin Au (111) films

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Keywords

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