Strong non-volatile voltage control of magnetism in magnetic/antiferroelectric magnetoelectric heterostructures

Strong magnetoelectric coupling was demonstrated in magnetic/antiferroelectric heterostructures of FeGaB/Pb(La,Sn,Zr,Ti)O3, which exhibited a voltage induced coercive field change of 7–10 Oe and ferromagnetic resonance field shifts by ∼80 Oe. Nonvolatile voltage induced magnetization switching and f...

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Veröffentlicht in:	Applied physics letters 2014-01, Vol.104 (1)
Hauptverfasser:	Zhou, Z., Zhang, X. Y., Xie, T. F., Nan, T. X., Gao, Y., Yang, X., Wang, X. J., He, X. Y., Qiu, P. S., Sun, N. X., Sun, D. Z.
Format:	Artikel
Sprache:	eng
Schlagworte:	Antiferroelectricity Applied physics Coercivity Electric potential Ferroelectric materials Ferromagnetic resonance Ferromagnetism Heterostructures Lead Magnetism Phase transitions Spintronics Tin Zirconium
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container_title	Applied physics letters
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creator	Zhou, Z. Zhang, X. Y. Xie, T. F. Nan, T. X. Gao, Y. Yang, X. Wang, X. J. He, X. Y. Qiu, P. S. Sun, N. X. Sun, D. Z.
description	Strong magnetoelectric coupling was demonstrated in magnetic/antiferroelectric heterostructures of FeGaB/Pb(La,Sn,Zr,Ti)O3, which exhibited a voltage induced coercive field change of 7–10 Oe and ferromagnetic resonance field shifts by ∼80 Oe. Nonvolatile voltage induced magnetization switching and ferromagnetic resonance field shift in FeGaB were realized based on the ferroelectric-antiferroelectric phase transition in Pb(La,Sn,Zr,Ti)O3. The nonvolatile strong voltage control of magnetism in magnetic/antiferroelectric heterostructures has great implications in compact and power efficient spintronics and RF/microwave components.
doi_str_mv	10.1063/1.4861462
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Y. ; Xie, T. F. ; Nan, T. X. ; Gao, Y. ; Yang, X. ; Wang, X. J. ; He, X. Y. ; Qiu, P. S. ; Sun, N. X. ; Sun, D. Z.</creator><creatorcontrib>Zhou, Z. ; Zhang, X. Y. ; Xie, T. F. ; Nan, T. X. ; Gao, Y. ; Yang, X. ; Wang, X. J. ; He, X. Y. ; Qiu, P. S. ; Sun, N. X. ; Sun, D. Z.</creatorcontrib><description>Strong magnetoelectric coupling was demonstrated in magnetic/antiferroelectric heterostructures of FeGaB/Pb(La,Sn,Zr,Ti)O3, which exhibited a voltage induced coercive field change of 7–10 Oe and ferromagnetic resonance field shifts by ∼80 Oe. Nonvolatile voltage induced magnetization switching and ferromagnetic resonance field shift in FeGaB were realized based on the ferroelectric-antiferroelectric phase transition in Pb(La,Sn,Zr,Ti)O3. 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Nonvolatile voltage induced magnetization switching and ferromagnetic resonance field shift in FeGaB were realized based on the ferroelectric-antiferroelectric phase transition in Pb(La,Sn,Zr,Ti)O3. 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Z.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Strong non-volatile voltage control of magnetism in magnetic/antiferroelectric magnetoelectric heterostructures</atitle><jtitle>Applied physics letters</jtitle><date>2014-01-06</date><risdate>2014</risdate><volume>104</volume><issue>1</issue><issn>0003-6951</issn><eissn>1077-3118</eissn><abstract>Strong magnetoelectric coupling was demonstrated in magnetic/antiferroelectric heterostructures of FeGaB/Pb(La,Sn,Zr,Ti)O3, which exhibited a voltage induced coercive field change of 7–10 Oe and ferromagnetic resonance field shifts by ∼80 Oe. Nonvolatile voltage induced magnetization switching and ferromagnetic resonance field shift in FeGaB were realized based on the ferroelectric-antiferroelectric phase transition in Pb(La,Sn,Zr,Ti)O3. The nonvolatile strong voltage control of magnetism in magnetic/antiferroelectric heterostructures has great implications in compact and power efficient spintronics and RF/microwave components.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4861462</doi></addata></record>
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subjects	Antiferroelectricity Applied physics Coercivity Electric potential Ferroelectric materials Ferromagnetic resonance Ferromagnetism Heterostructures Lead Magnetism Phase transitions Spintronics Tin Zirconium
title	Strong non-volatile voltage control of magnetism in magnetic/antiferroelectric magnetoelectric heterostructures
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