First principles based design and experimental evidence for a ZnO-based ferromagnet at room temperature

Marcel H.F. Sluiter; Y. Kawazoe; Parmanand Sharma; A. Inoue; A. R. Raju; C. Rout; U. V. Waghmare

doi:10.1103/PhysRevLett.94.187204

First principles based design and experimental evidence for a ZnO-based ferromagnet at room temperature

Marcel H.F. Sluiter, Y. Kawazoe, Parmanand Sharma, A. Inoue, A. R. Raju, C. Rout, U. V. Waghmare

大学病院・感覚器・理学診療科

研究成果: Article › 査読

301 被引用数 (Scopus)

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The introduction of ferromagnetic order in ZnO results in a transparent piezoelectric ferromagnet and further expands its already wide range of applications into the emerging field of spintronics. Through an analysis of density functional calculations we determine the nature of magnetic interactions for transition metals doped ZnO and develop a physical picture based on hybridization, superexchange, and double exchange that captures chemical trends. We identify a crucial role of defects in the observed weak and preparation sensitive ferromagnetism in ZnO Mn and ZnO Co. We predict and explain codoping of Li and Zn interstitials to both yield ferromagnetism in ZnO Co, in contrast with earlier insights, and verify it experimentally.

本文言語	English
論文番号	187204
ジャーナル	Physical review letters
巻	94
号	18
DOI	https://doi.org/10.1103/PhysRevLett.94.187204
出版ステータス	Published - 2005 5月 13

ASJC Scopus subject areas

物理学および天文学（全般）

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10.1103/PhysRevLett.94.187204

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AU - Rout, C.

AU - Waghmare, U. V.

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AB - The introduction of ferromagnetic order in ZnO results in a transparent piezoelectric ferromagnet and further expands its already wide range of applications into the emerging field of spintronics. Through an analysis of density functional calculations we determine the nature of magnetic interactions for transition metals doped ZnO and develop a physical picture based on hybridization, superexchange, and double exchange that captures chemical trends. We identify a crucial role of defects in the observed weak and preparation sensitive ferromagnetism in ZnO Mn and ZnO Co. We predict and explain codoping of Li and Zn interstitials to both yield ferromagnetism in ZnO Co, in contrast with earlier insights, and verify it experimentally.

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First principles based design and experimental evidence for a ZnO-based ferromagnet at room temperature

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