Ferromagnetism induced by lattice volume expansion and amorphization in EuTiO sub(3) thin films

Lattice volume expansion or amorphization renders EuTiO3 ferromagnetic, although the stable phase of crystalline EuTiO3 is an antiferromagnet. The lattice volume expansion is induced into the crystalline EuTiO3 thin film by utilizing the lattice mismatch between the thin film and a substrate. The ma...

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Veröffentlicht in:	Journal of materials research 2013-04, Vol.28 (8), p.1031-1041
Hauptverfasser:	Tanaka, Katsuhisa, Fujita, Koji, Maruyama, Yuya, Kususe, Yoshiro, Murakami, Hideo, Akamatsu, Hirofumi, Zong, Yanhua, Murai, Shunsuke
Format:	Artikel
Sprache:	eng
Schlagworte:	Amorphization Antiferromagnetism Ferromagnetism Lattice matching Lattices Thin films
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creator	Tanaka, Katsuhisa Fujita, Koji Maruyama, Yuya Kususe, Yoshiro Murakami, Hideo Akamatsu, Hirofumi Zong, Yanhua Murai, Shunsuke
description	Lattice volume expansion or amorphization renders EuTiO3 ferromagnetic, although the stable phase of crystalline EuTiO3 is an antiferromagnet. The lattice volume expansion is induced into the crystalline EuTiO3 thin film by utilizing the lattice mismatch between the thin film and a substrate. The magnetization at low temperatures monotonically increases with an increase in lattice volume for the crystalline EuTiO3 thin film, coincident with the results of calculations based on the hybrid HartreeFock density functional approach. The ferromagnetic interaction between Eu2+ ions is enhanced by the amorphization as well; the amorphous EuTiO3 thin film becomes a ferromagnet, and the Curie temperature is higher for amorphous Eu2TiO4 than for its crystalline counterpart. The phenomenon, that is, the volume expansion- and amophization-induced ferromagnetism, is explained in terms of the competition between ferromagnetic and antiferromagnetic interactions among Eu2+ ions.
doi_str_mv	10.1557/jmr.2013.60
format	Article
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The lattice volume expansion is induced into the crystalline EuTiO3 thin film by utilizing the lattice mismatch between the thin film and a substrate. The magnetization at low temperatures monotonically increases with an increase in lattice volume for the crystalline EuTiO3 thin film, coincident with the results of calculations based on the hybrid HartreeFock density functional approach. The ferromagnetic interaction between Eu2+ ions is enhanced by the amorphization as well; the amorphous EuTiO3 thin film becomes a ferromagnet, and the Curie temperature is higher for amorphous Eu2TiO4 than for its crystalline counterpart. 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source	Cambridge Journals - CAUL Collection; Springer Nature - Complete Springer Journals
subjects	Amorphization Antiferromagnetism Ferromagnetism Lattice matching Lattices Thin films
title	Ferromagnetism induced by lattice volume expansion and amorphization in EuTiO sub(3) thin films
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