Electronic structures and atomic surface diffusion in Cr/Fe(001) and Fe/Cr(001) systems: First-principles study

Heechae Choi; Sung Chul Yi; Yong Chae Chung

doi:10.1143/JJAP.47.5076

Electronic structures and atomic surface diffusion in Cr/Fe(001) and Fe/Cr(001) systems: First-principles study

Heechae Choi^*, Sung Chul Yi, Yong Chae Chung

^*Corresponding author for this work

Hanyang University

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

10 Citations (Scopus)

Abstract

There is currently much interest in thin-film layered systems and considerable attention has been given Fe/Cr(001) systems were quantitatively investigated in this study. Cr adatoms on the Fe(001) surface and Fe adatoms on the Cr(001) surface favored hollow sites as their adsorption site. The adsorption energies were 4.25 and 3.22 eV for each system and the surface diffusion energy barriers were calculated to be 0.99eV for Cr/Fe(001) and 1.74eV for Fe/Cr(001). Cr adatoms showed a strong antiferromagnetic phase on the Fe substrate with their spins aligned in the opposite direction to the magnetic moment of the Fe substrate, while the magnetization of ferromagnetic Fe atoms was weakened with adsorption onto the Cr substrate. During the surface diffusion process, energy states of 3d electrons in the adatom shifted toward higher levels, which corresponds to overcoming the energy barrier in both systems.

Original language	English
Pages (from-to)	5076-5078
Number of pages	3
Journal	Japanese Journal of Applied Physics
Volume	47
Issue number	6 PART 2
DOIs	https://doi.org/10.1143/JJAP.47.5076
Publication status	Published - 20 Jun 2008
Externally published	Yes

Keywords

Cr/Fe
Fe/Cr
First-principles calculation
Magnetic property
Surface diffusion

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10.1143/JJAP.47.5076

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title = "Electronic structures and atomic surface diffusion in Cr/Fe(001) and Fe/Cr(001) systems: First-principles study",

abstract = "There is currently much interest in thin-film layered systems and considerable attention has been given Fe/Cr(001) systems were quantitatively investigated in this study. Cr adatoms on the Fe(001) surface and Fe adatoms on the Cr(001) surface favored hollow sites as their adsorption site. The adsorption energies were 4.25 and 3.22 eV for each system and the surface diffusion energy barriers were calculated to be 0.99eV for Cr/Fe(001) and 1.74eV for Fe/Cr(001). Cr adatoms showed a strong antiferromagnetic phase on the Fe substrate with their spins aligned in the opposite direction to the magnetic moment of the Fe substrate, while the magnetization of ferromagnetic Fe atoms was weakened with adsorption onto the Cr substrate. During the surface diffusion process, energy states of 3d electrons in the adatom shifted toward higher levels, which corresponds to overcoming the energy barrier in both systems.",

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AU - Yi, Sung Chul

AU - Chung, Yong Chae

PY - 2008/6/20

Y1 - 2008/6/20

N2 - There is currently much interest in thin-film layered systems and considerable attention has been given Fe/Cr(001) systems were quantitatively investigated in this study. Cr adatoms on the Fe(001) surface and Fe adatoms on the Cr(001) surface favored hollow sites as their adsorption site. The adsorption energies were 4.25 and 3.22 eV for each system and the surface diffusion energy barriers were calculated to be 0.99eV for Cr/Fe(001) and 1.74eV for Fe/Cr(001). Cr adatoms showed a strong antiferromagnetic phase on the Fe substrate with their spins aligned in the opposite direction to the magnetic moment of the Fe substrate, while the magnetization of ferromagnetic Fe atoms was weakened with adsorption onto the Cr substrate. During the surface diffusion process, energy states of 3d electrons in the adatom shifted toward higher levels, which corresponds to overcoming the energy barrier in both systems.

AB - There is currently much interest in thin-film layered systems and considerable attention has been given Fe/Cr(001) systems were quantitatively investigated in this study. Cr adatoms on the Fe(001) surface and Fe adatoms on the Cr(001) surface favored hollow sites as their adsorption site. The adsorption energies were 4.25 and 3.22 eV for each system and the surface diffusion energy barriers were calculated to be 0.99eV for Cr/Fe(001) and 1.74eV for Fe/Cr(001). Cr adatoms showed a strong antiferromagnetic phase on the Fe substrate with their spins aligned in the opposite direction to the magnetic moment of the Fe substrate, while the magnetization of ferromagnetic Fe atoms was weakened with adsorption onto the Cr substrate. During the surface diffusion process, energy states of 3d electrons in the adatom shifted toward higher levels, which corresponds to overcoming the energy barrier in both systems.

KW - Cr/Fe

KW - Fe/Cr

KW - First-principles calculation

KW - Magnetic property

KW - Surface diffusion

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Electronic structures and atomic surface diffusion in Cr/Fe(001) and Fe/Cr(001) systems: First-principles study

Abstract

Keywords

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