Magnetization process of high anisotropy CoPt nanosized dots

N. Kikuchi; R. Murillo; J. C. Lodder; K. Mitsuzuka; T. Shimatsu

doi:10.1109/TMAG.2005.854784

Magnetization process of high anisotropy CoPt nanosized dots

N. Kikuchi, R. Murillo, J. C. Lodder, K. Mitsuzuka, T. Shimatsu

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

25 Citations (Scopus)

Abstract

Dot arrays with diameter ranging from 80 to 245 nm are made of Co ₈₀ Pt₂₀ films with large perpendicular anisotropy. Magnetic properties are investigated by detecting the anomalous Hall effect. The all arrays show angular dependence of remanent coercivity similar to coherent rotation. The result shows that reversal process is independent of dot diameter. The energy barrier height of magnetization reversal is estimated as 1.0 × 10^-10 erg for the array consists of 140-nm-diameter dots. From the energy value, the switching volume is estimated as equivalent to the volume of a physical grain in the film. The results indicate that the reversal process starts from a nucleation of a "reversed grain"followed by propagation process.

Original language	English
Pages (from-to)	3613-3615
Number of pages	3
Journal	IEEE Transactions on Magnetics
Volume	41
Issue number	10
DOIs	https://doi.org/10.1109/TMAG.2005.854784
Publication status	Published - 2005 Oct

Keywords

Magnetic dot array
Magnetic hysteresis
Magnetization reversal

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10.1109/TMAG.2005.854784

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title = "Magnetization process of high anisotropy CoPt nanosized dots",

abstract = "Dot arrays with diameter ranging from 80 to 245 nm are made of Co 80 Pt20 films with large perpendicular anisotropy. Magnetic properties are investigated by detecting the anomalous Hall effect. The all arrays show angular dependence of remanent coercivity similar to coherent rotation. The result shows that reversal process is independent of dot diameter. The energy barrier height of magnetization reversal is estimated as 1.0 × 10-10 erg for the array consists of 140-nm-diameter dots. From the energy value, the switching volume is estimated as equivalent to the volume of a physical grain in the film. The results indicate that the reversal process starts from a nucleation of a {"}reversed grain{"}followed by propagation process.",

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author = "N. Kikuchi and R. Murillo and Lodder, {J. C.} and K. Mitsuzuka and T. Shimatsu",

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T1 - Magnetization process of high anisotropy CoPt nanosized dots

AU - Kikuchi, N.

AU - Murillo, R.

AU - Lodder, J. C.

AU - Mitsuzuka, K.

AU - Shimatsu, T.

PY - 2005/10

Y1 - 2005/10

N2 - Dot arrays with diameter ranging from 80 to 245 nm are made of Co 80 Pt20 films with large perpendicular anisotropy. Magnetic properties are investigated by detecting the anomalous Hall effect. The all arrays show angular dependence of remanent coercivity similar to coherent rotation. The result shows that reversal process is independent of dot diameter. The energy barrier height of magnetization reversal is estimated as 1.0 × 10-10 erg for the array consists of 140-nm-diameter dots. From the energy value, the switching volume is estimated as equivalent to the volume of a physical grain in the film. The results indicate that the reversal process starts from a nucleation of a "reversed grain"followed by propagation process.

AB - Dot arrays with diameter ranging from 80 to 245 nm are made of Co 80 Pt20 films with large perpendicular anisotropy. Magnetic properties are investigated by detecting the anomalous Hall effect. The all arrays show angular dependence of remanent coercivity similar to coherent rotation. The result shows that reversal process is independent of dot diameter. The energy barrier height of magnetization reversal is estimated as 1.0 × 10-10 erg for the array consists of 140-nm-diameter dots. From the energy value, the switching volume is estimated as equivalent to the volume of a physical grain in the film. The results indicate that the reversal process starts from a nucleation of a "reversed grain"followed by propagation process.

KW - Magnetic dot array

KW - Magnetic hysteresis

KW - Magnetization reversal

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Magnetization process of high anisotropy CoPt nanosized dots

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