Temperature-induced phase transition from cycloidal to collinear antiferromagnetism in multiferroic Bi_(0.9)Sm_(0.1)FeO_3 driven by f-d induced magnetic anisotropy

R. D. Johnson; P. A. McClarty; D. D. Khalyavin; P. Manuel; P. Svedlindh; C. S. Knee

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Temperature-induced phase transition from cycloidal to collinear antiferromagnetism in multiferroic Bi_(0.9)Sm_(0.1)FeO_3 driven by f-d induced magnetic anisotropy

机译：f-d感应磁各向异性驱动多铁性Bi_（0.9）Sm_（0.1）FeO_3的温度诱导的从摆线形到共线反铁磁性的相变

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In multiferroic BiFeO_3 a cycloidal antiferromagnetic structure is coupled to a large electric polarization at room temperature, giving rise to magnetoelectric functionality that may be exploited in novel multiferroic-based devices. In this paper, we demonstrate that substituting samarium for 10% of the bismuth ions increases the periodicity of the room-temperature cycloid, and upon cooling to below ~15 K the magnetic structure tends towards a simple G-type antiferromagnet, which is fully established at 1.5 K. We show that this transition results from f-d exchange coupling, which induces a local anisotropy on the iron magnetic moments that destroys the cycloidal order—a result of general significance regarding the stability of noncollinear magnetic structures in the presence of multiple magnetic sublattices.

机译：在多铁性BiFeO_3中，摆线反铁磁结构在室温下与大极化耦合，从而产生了可在新型基于多铁性设备中利用的磁电功能。在本文中，我们证明了用sa代替10％的铋离子会增加室温摆线的周期性，并且在冷却至〜15 K以下时，磁性结构趋向于形成一个简单的G型反铁磁体，这已完全确立在1.5 K时我们证明了这种转变是由fd交换耦合引起的。fd交换耦合在铁磁矩上引起局域各向异性，从而破坏了摆线序-这是关于存在多个磁子格的非共线磁结构稳定性的一般意义的结果。

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《Physical Review. B, Condensed Matter》 |2017年第5期|054420.1-054420.7|共7页
作者
R. D. Johnson; P. A. McClarty; D. D. Khalyavin; P. Manuel; P. Svedlindh; C. S. Knee;
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ISIS Facility, Rutherford Appleton Laboratory-STFC, Chilton, Didcot OX11 0QX, United Kingdom,Clarendon Laboratory, Department of Physics, University of Oxford, Oxford OX1 3PU, United Kingdom;

ISIS Facility, Rutherford Appleton Laboratory-STFC, Chilton, Didcot OX11 0QX, United Kingdom;

ISIS Facility, Rutherford Appleton Laboratory-STFC, Chilton, Didcot OX11 0QX, United Kingdom;

ISIS Facility, Rutherford Appleton Laboratory-STFC, Chilton, Didcot OX11 0QX, United Kingdom;

Department of Engineering Sciences, Uppsala University, Box 534, SE-751 21 Uppsala, Sweden;

ESAB AB, Lindholmsalln 9, SE-402 77 Gothenburg, Sweden;

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1. Temperature-induced phase transition from cycloidal to collinear antiferromagnetism in multiferroic Bi_(0.9)Sm_(0.1)FeO_3 driven by f -d induced magnetic anisotropy [J] . R. D. Johnson, P. A. McClarty, D. D. Khalyavin, Physical Review. B, Condensed Matter . 2017,第5a6CD期

机译：由有F -D诱导磁各向异性驱动的多体性Bi_（0.9）SM_（0.1）FEO_3中的循环诱导的相变从环烷醇到共线反铁磁性
2. Temperature-induced phase transition from cycloidal to collinear antiferromagnetism in multiferroic Bi0.9Sm0.1FeO3 driven by f-d induced magnetic anisotropy [J] . Johnson R. D., McClarty P. A., Khalyavin D. D., Physical review, B . 2017,第5期

机译：由F-D诱导磁各向异性驱动的多体性Bi0.9sm0.1fe3中的环脊髓诱导的相变离子反散性
3. Investigations on structural, ferroic and magneto-dielectric properties of multiferroic Bi_(0.9)Sm_(0.1)FeO_3 and its composite (0.9) Bi_(0.9)Sm_(0.1)FeO_3/(0.1) La_(0.7)Sr_(0.3)MnO_3 at room temperature [J] . M. Manjula Devi, Anitha Anand, R. K. Veena, Journal of materials science . 2021,第9期

机译：对多体性Bi_（0.9）SM_（0.1）FEO_3及其复合（0.9）BI_（0.1）FEO_3 /（0.1）LA_（0.7）SR_（0.3）MNO_3的结构，铁磁和磁介质性质的研究室内温度
4. Influence of Substrate on Structure and Magnetic Properties of Bi_(0.9)Nd_(0.1)FeO_3 Thin Films by Radio Frequency Magnetron Sputtering Method [C] . L. L. Li, Q. X. Liu, Y. Zou, International Conference on Mechanical Engineering and Materials . 2013

机译：基材对射频磁控溅射法通过射频磁控溅射法对Bi_（0.9）Nd_（0.1）FeO_3薄膜结构和磁性的影响
5. Giant Controllable Magnetization Changes Induced by Structural Phase Transitions in a Metamagnetic Artificial Multiferroic [O] . S. P. Bennett, A. T. Wong, A. Glavic, -1

机译：亚磁人工多铁性结构相变引起的巨大可控磁化变化
6. Temperature-induced phase transition from cycloidal to collinear antiferromagnetism in multiferroic Bi0.9Sm0.1FeO3 driven by f-d induced magnetic anisotropy [O] . Johnson, R, McClarty, PA, Khalyavin, DD, 2017

机译：f-d感应磁各向异性驱动的多铁性Bi0.9Sm0.1FeO3中温度诱导的从摆线形到共线反铁磁性的相变
7. Anisotropy, Magnetic Field and Stress Influences on the Phase Transitions on Spin-Flop-Type Antiferromagnets [R] . Machado, S. F., Tsallis, C. 1983

机译：各向异性，磁场和应力对自旋翻转型反铁磁体相变的影响

Temperature-induced phase transition from cycloidal to collinear antiferromagnetism in multiferroic Bi_(0.9)Sm_(0.1)FeO_3 driven by f-d induced magnetic anisotropy

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