Growth, structure, and properties of BiFeO/sub 3/-BiCrO/sub 3/ films obtained by dual cross beam PLD

The properties of epitaxial Bi 2 FeCrO6 thin films, recently synthesized by pulsed laser deposition, have partially confirmed the theoretical predictions (i.e., a magnetic moment of 2 mubeta per formula unit and a polarization of ~80 muC/cm 2 at 0 K). The existence of magnetic ordering at room tempe...

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Veröffentlicht in:	IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 2007-12, Vol.54 (12), p.2645-2652
Hauptverfasser:	Nechache, R., Harnagea, C., Gunawan, L., Carignan, L.-P., Maunders, C., Menard, D., Botton, G.A., Pignolet, A.
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Sprache:	eng
Schlagworte:	Bismuth Chromium Elementary particle exchange interactions Ferroelectric films Iron Magnetic films Magnetic materials Magnetic properties Pulsed laser deposition Temperature
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container_title	IEEE transactions on ultrasonics, ferroelectrics, and frequency control
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creator	Nechache, R. Harnagea, C. Gunawan, L. Carignan, L.-P. Maunders, C. Menard, D. Botton, G.A. Pignolet, A.
description	The properties of epitaxial Bi 2 FeCrO6 thin films, recently synthesized by pulsed laser deposition, have partially confirmed the theoretical predictions (i.e., a magnetic moment of 2 mubeta per formula unit and a polarization of ~80 muC/cm 2 at 0 K). The existence of magnetic ordering at room temperature for this material is an unexpected, but very promising, result that needs to be further investigated. Because magnetism is assumed to arise from the exchange interaction between the Fe and Cr cations, the magnetic behavior is strongly dependent on both their ordering and the distance between them. We present here the successful synthesis of epitaxial Bi 2 Fe x Cr y O 6 (BFCO x/y) films grown on SrTiO 3 substrates using dual crossed-beam, pulsed-laser deposition. The crystal structure of the films has different types of (111)-oriented superstructures, depending on the deposition conditions. The multiferroic character of BFCO (x/y) films is proven by the presence of both ferroelectric and magnetic hysteresis at room temperature. The oxidation state of Fe and Cr ions in the films is shown to be 3+ only, and the difference in macroscopic magnetization with Fe/Cr ratio composition could only be due to ordering of the Cr 3+ and Fe 3+ cations to the modification of the exchange interaction between them.
doi_str_mv	10.1109/TUFFC.2007.593
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The existence of magnetic ordering at room temperature for this material is an unexpected, but very promising, result that needs to be further investigated. Because magnetism is assumed to arise from the exchange interaction between the Fe and Cr cations, the magnetic behavior is strongly dependent on both their ordering and the distance between them. We present here the successful synthesis of epitaxial Bi 2 Fe x Cr y O 6 (BFCO x/y) films grown on SrTiO 3 substrates using dual crossed-beam, pulsed-laser deposition. The crystal structure of the films has different types of (111)-oriented superstructures, depending on the deposition conditions. The multiferroic character of BFCO (x/y) films is proven by the presence of both ferroelectric and magnetic hysteresis at room temperature. 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The existence of magnetic ordering at room temperature for this material is an unexpected, but very promising, result that needs to be further investigated. Because magnetism is assumed to arise from the exchange interaction between the Fe and Cr cations, the magnetic behavior is strongly dependent on both their ordering and the distance between them. We present here the successful synthesis of epitaxial Bi 2 Fe x Cr y O 6 (BFCO x/y) films grown on SrTiO 3 substrates using dual crossed-beam, pulsed-laser deposition. The crystal structure of the films has different types of (111)-oriented superstructures, depending on the deposition conditions. The multiferroic character of BFCO (x/y) films is proven by the presence of both ferroelectric and magnetic hysteresis at room temperature. 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The existence of magnetic ordering at room temperature for this material is an unexpected, but very promising, result that needs to be further investigated. Because magnetism is assumed to arise from the exchange interaction between the Fe and Cr cations, the magnetic behavior is strongly dependent on both their ordering and the distance between them. We present here the successful synthesis of epitaxial Bi 2 Fe x Cr y O 6 (BFCO x/y) films grown on SrTiO 3 substrates using dual crossed-beam, pulsed-laser deposition. The crystal structure of the films has different types of (111)-oriented superstructures, depending on the deposition conditions. The multiferroic character of BFCO (x/y) films is proven by the presence of both ferroelectric and magnetic hysteresis at room temperature. The oxidation state of Fe and Cr ions in the films is shown to be 3+ only, and the difference in macroscopic magnetization with Fe/Cr ratio composition could only be due to ordering of the Cr 3+ and Fe 3+ cations to the modification of the exchange interaction between them.</abstract><pub>IEEE</pub><pmid>18276571</pmid><doi>10.1109/TUFFC.2007.593</doi><tpages>8</tpages></addata></record>
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subjects	Bismuth Chromium Elementary particle exchange interactions Ferroelectric films Iron Magnetic films Magnetic materials Magnetic properties Pulsed laser deposition Temperature
title	Growth, structure, and properties of BiFeO/sub 3/-BiCrO/sub 3/ films obtained by dual cross beam PLD
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