The effects of tungsten concentration on crystalline structure and perpendicular magnetic anisotropy of Co-W films

S. Q. Yin; Y. Wu; X. G. Xu; H. Wang; J. P. Wang; Y. Jiang

doi:10.1063/1.4905447

The effects of tungsten concentration on crystalline structure and perpendicular magnetic anisotropy of Co-W films

S. Q. Yin, Y. Wu, X. G. Xu, H. Wang, J. P. Wang, Y. Jiang

Electrical and Computer Engineering

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Abstract

In this study, Co-W thin films deposited by DC magnetron sputtering were demonstrated to be perpendicular magnetic anisotropic with large magnetocrystalline anisotropy energy (MAE). Thermodynamic calculations based on Miedema's semi-empirical model have been used to estimate the phase in this binary alloy system. Based on the thermodynamic calculations results, a series of Co-W thin films were deposited on amorphous Ta underlayer with different tungsten concentrations. According to the X-ray diffraction results, the crystal structure of Co-W thin films is consistent well with that of thermodynamic calculations. Large MAE of Co-W thin films can be obtained with K_u over 2.1 × 10⁵ J/m³ after vacuum annealing. The perpendicular coercivity (H_c) of Co-W thin film reaches 9.1 × 10⁴ A/m. Therefore, the Co-W thin film is considered as a potential choice of high-density magnetic recording media materials.

Original language	English (US)
Article number	127156
Journal	AIP Advances
Volume	4
Issue number	12
DOIs	https://doi.org/10.1063/1.4905447
State	Published - Dec 1 2014

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abstract = "In this study, Co-W thin films deposited by DC magnetron sputtering were demonstrated to be perpendicular magnetic anisotropic with large magnetocrystalline anisotropy energy (MAE). Thermodynamic calculations based on Miedema's semi-empirical model have been used to estimate the phase in this binary alloy system. Based on the thermodynamic calculations results, a series of Co-W thin films were deposited on amorphous Ta underlayer with different tungsten concentrations. According to the X-ray diffraction results, the crystal structure of Co-W thin films is consistent well with that of thermodynamic calculations. Large MAE of Co-W thin films can be obtained with Ku over 2.1 × 105 J/m3 after vacuum annealing. The perpendicular coercivity (Hc) of Co-W thin film reaches 9.1 × 104 A/m. Therefore, the Co-W thin film is considered as a potential choice of high-density magnetic recording media materials.",

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AU - Yin, S. Q.

AU - Wu, Y.

AU - Xu, X. G.

AU - Wang, H.

AU - Wang, J. P.

AU - Jiang, Y.

PY - 2014/12/1

Y1 - 2014/12/1

N2 - In this study, Co-W thin films deposited by DC magnetron sputtering were demonstrated to be perpendicular magnetic anisotropic with large magnetocrystalline anisotropy energy (MAE). Thermodynamic calculations based on Miedema's semi-empirical model have been used to estimate the phase in this binary alloy system. Based on the thermodynamic calculations results, a series of Co-W thin films were deposited on amorphous Ta underlayer with different tungsten concentrations. According to the X-ray diffraction results, the crystal structure of Co-W thin films is consistent well with that of thermodynamic calculations. Large MAE of Co-W thin films can be obtained with Ku over 2.1 × 105 J/m3 after vacuum annealing. The perpendicular coercivity (Hc) of Co-W thin film reaches 9.1 × 104 A/m. Therefore, the Co-W thin film is considered as a potential choice of high-density magnetic recording media materials.

AB - In this study, Co-W thin films deposited by DC magnetron sputtering were demonstrated to be perpendicular magnetic anisotropic with large magnetocrystalline anisotropy energy (MAE). Thermodynamic calculations based on Miedema's semi-empirical model have been used to estimate the phase in this binary alloy system. Based on the thermodynamic calculations results, a series of Co-W thin films were deposited on amorphous Ta underlayer with different tungsten concentrations. According to the X-ray diffraction results, the crystal structure of Co-W thin films is consistent well with that of thermodynamic calculations. Large MAE of Co-W thin films can be obtained with Ku over 2.1 × 105 J/m3 after vacuum annealing. The perpendicular coercivity (Hc) of Co-W thin film reaches 9.1 × 104 A/m. Therefore, the Co-W thin film is considered as a potential choice of high-density magnetic recording media materials.

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The effects of tungsten concentration on crystalline structure and perpendicular magnetic anisotropy of Co-W films

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