Spin reorientation transition and its gas absorption effect on Ni/fct-Fe films at 110 K

H. S. Qiu; J. Gao; B. Ma; Z. Z. Zhang; Q. Y. Jin

Spin reorientation transition and its gas absorption effect on Ni/fct-Fe films at 110 K

H. S. Qiu, J. Gao, B. Ma, Z. Z. Zhang, Q. Y. Jin

Electrical and Computer Engineering

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

Abstract

Using the in-situ magneto-optical Kerr effect, we study the spin reorientation transitions (SRT) in Ni/fct-Fe films on Cu (001) at 110 K. Induced by the Ni capping, the out-of-plane easy axis of magnetization rotates to in plane because of the modification of the surface anisotropy with Ni atoms. We find that the Ni critical thickness, where the SRT happens, decreases linearly with increasing Fe film thickness. Similarly, the gas absorption also strongly affects the surface anisotropy and, thus, influences the Ni critical thickness. With further Ni capping, a second SRT happens, with the easy axis of magnetization rotating back to out of plane.

Original language	English (US)
Pages (from-to)	2095-2098
Number of pages	4
Journal	Journal of the Korean Physical Society
Volume	49
Issue number	5 I
State	Published - Nov 1 2006

Keywords

Fe/Cu (001)
Gas absorption
Ni capping
Spin reorientation transition

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abstract = "Using the in-situ magneto-optical Kerr effect, we study the spin reorientation transitions (SRT) in Ni/fct-Fe films on Cu (001) at 110 K. Induced by the Ni capping, the out-of-plane easy axis of magnetization rotates to in plane because of the modification of the surface anisotropy with Ni atoms. We find that the Ni critical thickness, where the SRT happens, decreases linearly with increasing Fe film thickness. Similarly, the gas absorption also strongly affects the surface anisotropy and, thus, influences the Ni critical thickness. With further Ni capping, a second SRT happens, with the easy axis of magnetization rotating back to out of plane.",

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AU - Qiu, H. S.

AU - Gao, J.

AU - Ma, B.

AU - Zhang, Z. Z.

AU - Jin, Q. Y.

PY - 2006/11/1

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N2 - Using the in-situ magneto-optical Kerr effect, we study the spin reorientation transitions (SRT) in Ni/fct-Fe films on Cu (001) at 110 K. Induced by the Ni capping, the out-of-plane easy axis of magnetization rotates to in plane because of the modification of the surface anisotropy with Ni atoms. We find that the Ni critical thickness, where the SRT happens, decreases linearly with increasing Fe film thickness. Similarly, the gas absorption also strongly affects the surface anisotropy and, thus, influences the Ni critical thickness. With further Ni capping, a second SRT happens, with the easy axis of magnetization rotating back to out of plane.

AB - Using the in-situ magneto-optical Kerr effect, we study the spin reorientation transitions (SRT) in Ni/fct-Fe films on Cu (001) at 110 K. Induced by the Ni capping, the out-of-plane easy axis of magnetization rotates to in plane because of the modification of the surface anisotropy with Ni atoms. We find that the Ni critical thickness, where the SRT happens, decreases linearly with increasing Fe film thickness. Similarly, the gas absorption also strongly affects the surface anisotropy and, thus, influences the Ni critical thickness. With further Ni capping, a second SRT happens, with the easy axis of magnetization rotating back to out of plane.

KW - Fe/Cu (001)

KW - Gas absorption

KW - Ni capping

KW - Spin reorientation transition

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Spin reorientation transition and its gas absorption effect on Ni/fct-Fe films at 110 K

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