Field induced changes in cycloidal spin ordering and coincidence between magnetic and electric anomalies in BiFeO3 multiferroic

The temperature dependences of ZFC and FC magnetization was measured for BiFeO3 ceramics in magnetic field up to μ0H=10T and in temperatures from the range 2–1000K. The antiferromagnetic order was detected from the hysteresis loops below the Néel temperature TN=646K. The anomaly in M(H), which occur...

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Veröffentlicht in:	Journal of magnetism and magnetic materials 2013-09, Vol.342, p.17-26
Hauptverfasser:	Andrzejewski, B., Molak, A., Hilczer, B., Budziak, A., Bujakiewicz-Korońska, R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anharmonicity Anomalies BiFeO3 Ceramics Condensed matter: electronic structure, electrical, magnetic, and optical properties Cycloids Exact sciences and technology Hysteresis loops Magnetic fields Magnetic phase boundaries (including magnetic transitions, metamagnetism, etc.) Magnetic phase transition Magnetic properties and materials Magnetically ordered materials: other intrinsic properties Magnetization Multiferroic Physics Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source x-ray scattering, etc.) Temperature dependence
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creator	Andrzejewski, B. Molak, A. Hilczer, B. Budziak, A. Bujakiewicz-Korońska, R.
description	The temperature dependences of ZFC and FC magnetization was measured for BiFeO3 ceramics in magnetic field up to μ0H=10T and in temperatures from the range 2–1000K. The antiferromagnetic order was detected from the hysteresis loops below the Néel temperature TN=646K. The anomaly in M(H), which occurred in the low magnetic field range, was ascribed to the field-induced transition from circular cycloid to the anharmonic cycloid. At high field limit, we observed the field-induced transition to the homogeneous spin order. From the M(H) dependence, we deduced that the spin cycloid becomes anharmonic above the field Ha that caused nonlinear magnetization. The cycloid vanished above the field Hc and the system again exhibited linear magnetization M(H). The anomalies in the electric properties, ε′(T), tanδ(T), and σ(T), which are manifested within the 635–670K range, coincide with the anomaly in the temperature dependence of magnetization M(T), which occurs in the vicinity of TN=646K. We propose that this coincidence can be explained by the critical behavior of chemical potential µS, related to the magnetic phase transition. •We have found a new field-induced transition in cycloidal spin ordering in BiFeO3.•We have proposed a new magnetic phase diagram of BiFeO3.•We report electrical anomalies in vicinity of AFM transition.•We discuss relation between magnetic and electric, i.e. multiferroic features.
doi_str_mv	10.1016/j.jmmm.2013.04.059
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The antiferromagnetic order was detected from the hysteresis loops below the Néel temperature TN=646K. The anomaly in M(H), which occurred in the low magnetic field range, was ascribed to the field-induced transition from circular cycloid to the anharmonic cycloid. At high field limit, we observed the field-induced transition to the homogeneous spin order. From the M(H) dependence, we deduced that the spin cycloid becomes anharmonic above the field Ha that caused nonlinear magnetization. The cycloid vanished above the field Hc and the system again exhibited linear magnetization M(H). The anomalies in the electric properties, ε′(T), tanδ(T), and σ(T), which are manifested within the 635–670K range, coincide with the anomaly in the temperature dependence of magnetization M(T), which occurs in the vicinity of TN=646K. 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We propose that this coincidence can be explained by the critical behavior of chemical potential µS, related to the magnetic phase transition. •We have found a new field-induced transition in cycloidal spin ordering in BiFeO3.•We have proposed a new magnetic phase diagram of BiFeO3.•We report electrical anomalies in vicinity of AFM transition.•We discuss relation between magnetic and electric, i.e. multiferroic features.</description><subject>Anharmonicity</subject><subject>Anomalies</subject><subject>BiFeO3</subject><subject>Ceramics</subject><subject>Condensed matter: electronic structure, electrical, magnetic, and optical properties</subject><subject>Cycloids</subject><subject>Exact sciences and technology</subject><subject>Hysteresis loops</subject><subject>Magnetic fields</subject><subject>Magnetic phase boundaries (including magnetic transitions, metamagnetism, etc.)</subject><subject>Magnetic phase transition</subject><subject>Magnetic properties and materials</subject><subject>Magnetically ordered materials: other intrinsic properties</subject><subject>Magnetization</subject><subject>Multiferroic</subject><subject>Physics</subject><subject>Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source x-ray scattering, etc.)</subject><subject>Temperature dependence</subject><issn>0304-8853</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNqFkU-L1EAQxXNQcF39Ap5yEbxMrP6bBLzo4qiwsBc9N53uylhDp3vszih78qvb2Vk8KhQUD371Ct5rmlcMOgZMvz12x2VZOg5MdCA7UOOT5goEyN0wKPGseV7KEQCYHPRV83tPGHxL0Z8d-tZ9t_GAperW3buQyNvQllOVKXvMFA-tjRVLFB15jA7bCddfiLFd7CHiSu4BwIBuzQ8iLTbQxfID7fFOtMs5rDRjzonci-bpbEPBl4_7uvm2__j15vPu9u7Tl5v3tzsnJay7WSktB9UPdnCaCY-jYKOyTjDvezZJoTkfRz0xN3O00MM0AYo68wR21r24bt5cfE85_ThjWc1CxWEINmI6F8N6JZQSnOn_owq0GBTnmyu_oC6nUjLO5pRpsfneMDBbGeZotjLMVoYBaWoZ9ej1o78tzoY525pl-XvJe6mHXsnKvbtwWHP5SZhNcbRF7inXdI1P9K83fwCw96Lv</recordid><startdate>20130901</startdate><enddate>20130901</enddate><creator>Andrzejewski, B.</creator><creator>Molak, A.</creator><creator>Hilczer, B.</creator><creator>Budziak, A.</creator><creator>Bujakiewicz-Korońska, R.</creator><general>Elsevier B.V</general><general>Elsevier</general><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QQ</scope><scope>7U5</scope><scope>8FD</scope><scope>JG9</scope><scope>L7M</scope><scope>7SR</scope><scope>8BQ</scope></search><sort><creationdate>20130901</creationdate><title>Field induced changes in cycloidal spin ordering and coincidence between magnetic and electric anomalies in BiFeO3 multiferroic</title><author>Andrzejewski, B. ; 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We propose that this coincidence can be explained by the critical behavior of chemical potential µS, related to the magnetic phase transition. •We have found a new field-induced transition in cycloidal spin ordering in BiFeO3.•We have proposed a new magnetic phase diagram of BiFeO3.•We report electrical anomalies in vicinity of AFM transition.•We discuss relation between magnetic and electric, i.e. multiferroic features.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jmmm.2013.04.059</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Anharmonicity Anomalies BiFeO3 Ceramics Condensed matter: electronic structure, electrical, magnetic, and optical properties Cycloids Exact sciences and technology Hysteresis loops Magnetic fields Magnetic phase boundaries (including magnetic transitions, metamagnetism, etc.) Magnetic phase transition Magnetic properties and materials Magnetically ordered materials: other intrinsic properties Magnetization Multiferroic Physics Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source x-ray scattering, etc.) Temperature dependence
title	Field induced changes in cycloidal spin ordering and coincidence between magnetic and electric anomalies in BiFeO3 multiferroic
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