Highly Anisotropic Magnetism and Nearly Isotropic Magnetocaloric Effect in Mn3Sn2 Single Crystals

IF 3.5 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Chinese Physics Letters Pub Date : 2023-12-01 DOI:10.1088/0256-307x/40/12/127501

Jianli Bai, Qingxin Dong, Libo Zhang, Qiaoyu Liu, Jingwen Cheng, Pinyu Liu, Cundong Li, Yingrui Sun, Yu Huang, Zhian Ren, Genfu Chen

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Abstract

Mn₃Sn₂ has been proposed as an ideal material for magnetic refrigeration. It undergoes two successive ferromagnetic transitions (T _C1 = 262 K and T _C2 = 227 K) and one antiferromagnetic transition (T _N = 192 K). Herein we report, for the first time, the preparation of single crystals of Mn₃Sn₂ from Bi flux. The resultant anisotropic magnetic properties and magnetocaloric effect are investigated along the three principal crystallographic directions of the crystal. Significant anisotropy of magnetic susceptibility and multiple field-induced metamagnetic transitions were found at low fields, whereas the magnetocaloric effect was found to be almost isotropic and larger than that of the polycrystalline one. The maximum magnetic entropy change amounts to −ΔS _M = 4.01 J⋅kg⁻¹⋅K⁻¹ near T _C1 under a magnetic field change of μ ₀ΔH = 5 T along the c-axis, with the corresponding refrigerant capacity of 1750 mJ⋅cm⁻³. Combined with a much wider cooling temperature span (∼ 80 K), our results demonstrate Mn₃Sn₂ single crystal to be an attractive candidate working material for active magnetic refrigeration at low temperatures.

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Mn3Sn2 单晶中的高各向异性磁性和近乎各向同性的磁焦效应

Mn3Sn2 被认为是磁制冷的理想材料。它连续经历了两次铁磁转变（TC1 = 262 K 和 TC2 = 227 K）和一次反铁磁转变（TN = 192 K）。在此，我们首次报告了利用 Bi 通量制备 Mn3Sn2 单晶的过程。我们沿晶体的三个主要晶体学方向研究了由此产生的各向异性磁特性和磁致效应。在低磁场下发现了磁感应强度的显著各向异性和多个磁场诱导的元磁转变，而磁钙效应几乎是各向同性的，且大于多晶的磁钙效应。沿 c 轴的磁场变化为 μ0ΔH = 5 T 时，在 TC1 附近的最大磁熵变化为 -ΔSM = 4.01 J-kg-1-K-1，相应的制冷剂容量为 1750 mJ-cm-3。结合更宽的冷却温度跨度（∼ 80 K），我们的结果表明 Mn3Sn2 单晶是一种极具吸引力的低温主动磁制冷候选工作材料。

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来源期刊

Chinese Physics Letters 物理-物理：综合

CiteScore

5.90

自引率

8.60%

发文量

13238

审稿时长

4 months

期刊介绍： Chinese Physics Letters provides rapid publication of short reports and important research in all fields of physics and is published by the Chinese Physical Society and hosted online by IOP Publishing.