THE GIANT MAGNETOSTRICTION AND MAGNETIC PROPERTIES OF THE AMORPHOUS ALTERNANT [Tb/Fe/Dy]n AND [Fe/Tb/Fe/Dy]m NANO-MULTILAYER FILMS

Xudong Li; Likun Pan; Zhenjie Zhao; Sumei Huang; Ye Chen; Zhen Sun

doi:10.1142/s0218625x08011883

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THE GIANT MAGNETOSTRICTION AND MAGNETIC PROPERTIES OF THE AMORPHOUS ALTERNANT [Tb/Fe/Dy]_n AND [Fe/Tb/Fe/Dy]_m NANO-MULTILAYER FILMS

Xudong Li Likun Pan Zhenjie Zhao Sumei Huang Ye Chen Zhen Sun

Year: 2008 Journal: Surface Review and Letters Vol: 15 (05)Pages: 619-623 Publisher: World Scientific

DOI: 10.1142/s0218625x08011883

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Abstract

The magnetic properties and giant magnetostriction effect (GMS) of the amorphous alternant [ Tb / Fe / Dy ] n (named S1) and [ Fe / Tb / Fe / Dy ] m (named S2) nano-multilayer films have been studied. The magnetic hysteresis loops show that easy magnetic direction changes from perpendicular to the film plane (S1) to parallel to the film plane (S2). S2 has better soft magnetic properties and low-field giant magnetostriction effect than that of S1, due to the exchanging interaction between the hard GMS layer and the soft layer Fe . The different magnetic behavior is explained by considering the nature of the magnetization process, i.e. domain-wall motion and spin rotation.

Keywords:

Font Amorphous solid Magnetostriction Physics Materials science Nuclear magnetic resonance Chemistry Magnetic field Crystallography Art

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Magnetic properties of thin films

Physical Sciences → Physics and Astronomy → Atomic and Molecular Physics, and Optics

Magnetic Properties and Applications

Physical Sciences → Materials Science → Electronic, Optical and Magnetic Materials

Metallic Glasses and Amorphous Alloys

Physical Sciences → Engineering → Mechanical Engineering

THE GIANT MAGNETOSTRICTION AND MAGNETIC PROPERTIES OF THE AMORPHOUS ALTERNANT [Tb/Fe/Dy]_n AND [Fe/Tb/Fe/Dy]_m NANO-MULTILAYER FILMS

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