Temperature and magnetic field-induced spin reorientation in rare-earth perovskite ErFe0.75Cr0.25O3

Maolin Xiang; Yiming Cao; Weiyao Zhao; Baojuan Kang; Zhenjie Feng; Poorva Sharma; Jincang Zhang; Wei Ren; Shixun Cao

doi:10.1007/s10948-017-4062-0

Temperature and magnetic field-induced spin reorientation in rare-earth perovskite ErFe_0.75Cr_0.25O₃

Maolin Xiang, Yiming Cao, Weiyao Zhao, Baojuan Kang, Zhenjie Feng, Poorva Sharma, Jincang Zhang, Wei Ren, Shixun Cao

Research output: Contribution to journal › Article › Research › peer-review

8 Citations (Scopus)

Abstract

We report the synthesis of a single-phase rare-earth perovskite ErFe_0.75Cr_0.25O₃ polycrystalline and its magnetic properties. A transition occurs at temperature T_N = 120 K below which we observe a weak magnetic moment from the canted antiferromagnetism. Interestingly, ErFe_0.75Cr_0.25O₃ reveals the compensation-like behavior at T_comp−like = 27 K, where the net magnetic moments of transition-metal ions are antiparallel and equal to the induced net moment of Er³⁺ ions, and the paramagnetic contribution of Er³⁺ moment presenting a nonzero magnetization. The temperature-dependent magnetization measurement shows a spin reorientation transition from Γ₄ to Γ₁ at 6 K. Furthermore, it is also observed that there is a spin-flop transition at low temperature induced by external magnetic field in Γ₁ state (antiferromagnetic state). The interaction between (Fe/Cr)-3d and Er-4f electrons drives an extremely interesting spin reorientation transition which is highly sensitive to magnetic field and temperature.

Original language	English
Pages (from-to)	2791-2796
Number of pages	6
Journal	Journal of Superconductivity and Novel Magnetism
Volume	30
Issue number	10
DOIs	https://doi.org/10.1007/s10948-017-4062-0
Publication status	Published - Oct 2017
Externally published	Yes

Keywords

Compensation-like behavior
Rare-earth perovskite
Spin reorientation
Spin-flop transition

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10.1007/s10948-017-4062-0

Cite this

@article{3bdd88792f3a49aab3714ea17c1b2ac4,

title = "Temperature and magnetic field-induced spin reorientation in rare-earth perovskite ErFe0.75Cr0.25O3",

abstract = "We report the synthesis of a single-phase rare-earth perovskite ErFe0.75Cr0.25O3 polycrystalline and its magnetic properties. A transition occurs at temperature TN = 120 K below which we observe a weak magnetic moment from the canted antiferromagnetism. Interestingly, ErFe0.75Cr0.25O3 reveals the compensation-like behavior at Tcomp−like = 27 K, where the net magnetic moments of transition-metal ions are antiparallel and equal to the induced net moment of Er3+ ions, and the paramagnetic contribution of Er3+ moment presenting a nonzero magnetization. The temperature-dependent magnetization measurement shows a spin reorientation transition from Γ4 to Γ1 at 6 K. Furthermore, it is also observed that there is a spin-flop transition at low temperature induced by external magnetic field in Γ1 state (antiferromagnetic state). The interaction between (Fe/Cr)-3d and Er-4f electrons drives an extremely interesting spin reorientation transition which is highly sensitive to magnetic field and temperature.",

keywords = "Compensation-like behavior, Rare-earth perovskite, Spin reorientation, Spin-flop transition",

author = "Maolin Xiang and Yiming Cao and Weiyao Zhao and Baojuan Kang and Zhenjie Feng and Poorva Sharma and Jincang Zhang and Wei Ren and Shixun Cao",

note = "Funding Information: This work is supported by the National Natural Science Foundation of China (NSFC, Nos. 51372149, 51672171, and 11574194), the National Key Basic Research Program of China (Grant No. 2015CB921600), Eastern Scholar Program from Shanghai Municipal Education Commission, and the Science and Technology Commission of Shanghai Municipality (No. 16DZ2260600). Publisher Copyright: {\textcopyright} 2017, Springer Science+Business Media New York.",

year = "2017",

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T1 - Temperature and magnetic field-induced spin reorientation in rare-earth perovskite ErFe0.75Cr0.25O3

AU - Xiang, Maolin

AU - Cao, Yiming

AU - Zhao, Weiyao

AU - Kang, Baojuan

AU - Feng, Zhenjie

AU - Sharma, Poorva

AU - Zhang, Jincang

AU - Ren, Wei

AU - Cao, Shixun

N1 - Funding Information: This work is supported by the National Natural Science Foundation of China (NSFC, Nos. 51372149, 51672171, and 11574194), the National Key Basic Research Program of China (Grant No. 2015CB921600), Eastern Scholar Program from Shanghai Municipal Education Commission, and the Science and Technology Commission of Shanghai Municipality (No. 16DZ2260600). Publisher Copyright: © 2017, Springer Science+Business Media New York.

PY - 2017/10

Y1 - 2017/10

N2 - We report the synthesis of a single-phase rare-earth perovskite ErFe0.75Cr0.25O3 polycrystalline and its magnetic properties. A transition occurs at temperature TN = 120 K below which we observe a weak magnetic moment from the canted antiferromagnetism. Interestingly, ErFe0.75Cr0.25O3 reveals the compensation-like behavior at Tcomp−like = 27 K, where the net magnetic moments of transition-metal ions are antiparallel and equal to the induced net moment of Er3+ ions, and the paramagnetic contribution of Er3+ moment presenting a nonzero magnetization. The temperature-dependent magnetization measurement shows a spin reorientation transition from Γ4 to Γ1 at 6 K. Furthermore, it is also observed that there is a spin-flop transition at low temperature induced by external magnetic field in Γ1 state (antiferromagnetic state). The interaction between (Fe/Cr)-3d and Er-4f electrons drives an extremely interesting spin reorientation transition which is highly sensitive to magnetic field and temperature.

AB - We report the synthesis of a single-phase rare-earth perovskite ErFe0.75Cr0.25O3 polycrystalline and its magnetic properties. A transition occurs at temperature TN = 120 K below which we observe a weak magnetic moment from the canted antiferromagnetism. Interestingly, ErFe0.75Cr0.25O3 reveals the compensation-like behavior at Tcomp−like = 27 K, where the net magnetic moments of transition-metal ions are antiparallel and equal to the induced net moment of Er3+ ions, and the paramagnetic contribution of Er3+ moment presenting a nonzero magnetization. The temperature-dependent magnetization measurement shows a spin reorientation transition from Γ4 to Γ1 at 6 K. Furthermore, it is also observed that there is a spin-flop transition at low temperature induced by external magnetic field in Γ1 state (antiferromagnetic state). The interaction between (Fe/Cr)-3d and Er-4f electrons drives an extremely interesting spin reorientation transition which is highly sensitive to magnetic field and temperature.

KW - Compensation-like behavior

KW - Rare-earth perovskite

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KW - Spin-flop transition

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