S. W. Kim scite author profile

S. W. Kim

3Publications

6Citation Statements Received

3Citation Statements Given

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Dankook University

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Determination of rotatable anisotropy in exchange-biased bilayers using anisotropic magnetoresistance technique

Kim

Lee

et al. 2003

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We improved the anisotropic magnetoresistance model to determine the quantity and direction of rotatable anisotropy in FeMn/NiFe structures independent of the thickness of the antiferromagnet layer. In our model, there are two important parameters, the magnitude α=Hrot/Hex and direction β=θrot/θa of rotatable anisotropy, where Hrot and θrot are an effective magnetic field and angle of a rotatable anisotropy, and Hex and θa are the exchange bias field and angle of applied field. As FeMn thickness decreased from 20 nm to 3.5 nm, α value increased from about 0.15 to 0.55. This proves that weak exchange coupling regions increase as the antiferromagnet thickness decreases. The α and β almost did not change as the NiFe thickness increases from 7 nm to 15 nm, even if the Hex was reduced from 170 Oe to 70 Oe.

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Partial magnetization reversal using laser annealing in patterned NiFe/FeMn film

et al. 2005

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Perpendicular magnetic anisotropy and interlayer exchange coupling in heterostructures of NiO and [CoFe/Pt] _n multilayers

Lee

Rhee

Choi

et al. 2004

phys. stat. sol. (c)

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PACS 75.30.Gw, 75.70.Cn Antiferromagnetic (AF) layer thickness and the annealing temperature dependences of perpendicular magnetic anisotropy (PMA) in the [CoFe/Pt] n multilayers exchange-coupled by NiO pinning layers at the top and bottom interfaces were investigated. Also we confirmed that the interlayer exchange coupling (IEC) at room temperature (RT) as a function of NiO thickness with a period of two monolayers existed.1 Introduction To achieve the truly next generation device for applying a magnetic random access memory (MRAM) using the magnetic tunnel junction (MTJ), all using ferromagnetic materials should be patterned into sub-micron elements. There are existed two hurdles in the conventional MTJ device, such as; a magnetization curling occurs at the edge of the film and in the vortex magnetization, and an anomalous switching depends on the shape of the in-plane MTJ. There are also caused by switching field fluctuations, which occur at the film edge when using an in-plane MTJ. On the other hand, perpendicular magnetic anisotropy (PMA) films have a low saturation magnetization, preventing any magnetization curling at the film edge [1]. Therefore, a MTJ with an aspect ratio of L(length)/W(width)=1 can be realized using perpendicular magnetization [2,3].We studied antiferromagnetic (AF) layer thickness and the annealing temperature dependences of perpendicular magnetic anisotropy in the [CoFe/Pt] N multilayers exchange-coupled by NiO pinning layers at the top and bottom interfaces. Also, the characteristics of the interlayer exchange coupling (IEC) across of insulating AF spacer (NiO) in heterostructures of type [Pt/CoFe] n AF/[CoFe/Pt] n was investigated.

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S. W. Kim

Determination of rotatable anisotropy in exchange-biased bilayers using anisotropic magnetoresistance technique

Partial magnetization reversal using laser annealing in patterned NiFe/FeMn film

Perpendicular magnetic anisotropy and interlayer exchange coupling in heterostructures of NiO and [CoFe/Pt] _n multilayers

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S. W. Kim

Determination of rotatable anisotropy in exchange-biased bilayers using anisotropic magnetoresistance technique

Partial magnetization reversal using laser annealing in patterned NiFe/FeMn film

Perpendicular magnetic anisotropy and interlayer exchange coupling in heterostructures of NiO and [CoFe/Pt] n multilayers

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Perpendicular magnetic anisotropy and interlayer exchange coupling in heterostructures of NiO and [CoFe/Pt] _n multilayers