Anomalous Behavior of Magnetization and Perpendicular Magnetic Anisotropy for Heusler Compound Type Multilayer Films, PtMnSb/CuMnSb

M. Watanabe; K. Takanashi; H. Fujimori

doi:10.1109/TJMJ.1991.4565171

Anomalous Behavior of Magnetization and Perpendicular Magnetic Anisotropy for Heusler Compound Type Multilayer Films, PtMnSb/CuMnSb

M. Watanabe, K. Takanashi, H. Fujimori

金属材料研究所・先端エネルギー材料理工共創研究センター

研究成果: Article › 査読

抄録

Multilayer films consisting of ferromagnetic PtMnSb and antiferromagnetic CuMnSb were prepared by a dual-type rf sputtering method. The thickness of a PtMnSb layer (dPt) was designed from 3.6 Å to 100 Å, holding the CuMnSb layer thickness constant at 100 Å. From X-ray diffraction data, all multilayer films were found to have a [111] texture of the C1b-type Heusler structure. The magnetization of multilayer films showed anomalous behavior: 1) a great enhancement of the magnetization compared with that of a PtMnSb compound; and 2) a bend in the temperature dependence of the magnetization at about 50 K, near the Néel temperature of CuMnSb. The magnetization curve revealed that a perpendicular magnetic anisotropy was induced with decreasing dPt. The interface contribution (Ks) and the volume contribution (Kv) to the perpendicular magnetic anisotropy were estimated to be Ks = 0.14 erg/cm2 and Kv = -7.9 x 10(6) erg/cm3.

本文言語	English
ページ（範囲）	375-381
ページ数	7
ジャーナル	IEEE Translation Journal on Magnetics in Japan
巻	6
号	5
DOI	https://doi.org/10.1109/TJMJ.1991.4565171
出版ステータス	Published - 1991 5月

ASJC Scopus subject areas

工学（その他）
工学（全般）

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10.1109/TJMJ.1991.4565171

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title = "Anomalous Behavior of Magnetization and Perpendicular Magnetic Anisotropy for Heusler Compound Type Multilayer Films, PtMnSb/CuMnSb",

abstract = "Multilayer films consisting of ferromagnetic PtMnSb and antiferromagnetic CuMnSb were prepared by a dual-type rf sputtering method. The thickness of a PtMnSb layer (dPt) was designed from 3.6 {\AA} to 100 {\AA}, holding the CuMnSb layer thickness constant at 100 {\AA}. From X-ray diffraction data, all multilayer films were found to have a [111] texture of the C1b-type Heusler structure. The magnetization of multilayer films showed anomalous behavior: 1) a great enhancement of the magnetization compared with that of a PtMnSb compound; and 2) a bend in the temperature dependence of the magnetization at about 50 K, near the N{\'e}el temperature of CuMnSb. The magnetization curve revealed that a perpendicular magnetic anisotropy was induced with decreasing dPt. The interface contribution (Ks) and the volume contribution (Kv) to the perpendicular magnetic anisotropy were estimated to be Ks = 0.14 erg/cm2 and Kv = -7.9 x 10(6) erg/cm3.",

author = "M. Watanabe and K. Takanashi and H. Fujimori",

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AU - Watanabe, M.

AU - Takanashi, K.

AU - Fujimori, H.

PY - 1991/5

Y1 - 1991/5

N2 - Multilayer films consisting of ferromagnetic PtMnSb and antiferromagnetic CuMnSb were prepared by a dual-type rf sputtering method. The thickness of a PtMnSb layer (dPt) was designed from 3.6 Å to 100 Å, holding the CuMnSb layer thickness constant at 100 Å. From X-ray diffraction data, all multilayer films were found to have a [111] texture of the C1b-type Heusler structure. The magnetization of multilayer films showed anomalous behavior: 1) a great enhancement of the magnetization compared with that of a PtMnSb compound; and 2) a bend in the temperature dependence of the magnetization at about 50 K, near the Néel temperature of CuMnSb. The magnetization curve revealed that a perpendicular magnetic anisotropy was induced with decreasing dPt. The interface contribution (Ks) and the volume contribution (Kv) to the perpendicular magnetic anisotropy were estimated to be Ks = 0.14 erg/cm2 and Kv = -7.9 x 10(6) erg/cm3.

AB - Multilayer films consisting of ferromagnetic PtMnSb and antiferromagnetic CuMnSb were prepared by a dual-type rf sputtering method. The thickness of a PtMnSb layer (dPt) was designed from 3.6 Å to 100 Å, holding the CuMnSb layer thickness constant at 100 Å. From X-ray diffraction data, all multilayer films were found to have a [111] texture of the C1b-type Heusler structure. The magnetization of multilayer films showed anomalous behavior: 1) a great enhancement of the magnetization compared with that of a PtMnSb compound; and 2) a bend in the temperature dependence of the magnetization at about 50 K, near the Néel temperature of CuMnSb. The magnetization curve revealed that a perpendicular magnetic anisotropy was induced with decreasing dPt. The interface contribution (Ks) and the volume contribution (Kv) to the perpendicular magnetic anisotropy were estimated to be Ks = 0.14 erg/cm2 and Kv = -7.9 x 10(6) erg/cm3.

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