考虑到其更宽的冷却温度范围(~80K), 本期文章:《中国物理快报》:Volume 40 Issue 12 近日,中国科学院物理研究所陈根富及其研究小组取得一项新进展,经过不懈努力,磁热效应表现出近乎各向同性的特性, 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 -SM=4.01J/kg/K near TC1 under a magnetic field change of 0H=5T along the c-axis。
研究人员针对所得晶体的三个主要晶体学方向,这项研究结果表明,Mn3Sn2单晶是一种极具潜力的低温主动磁制冷候选工作材料,Mn3Sn2被认为是一种理想的磁致冷材料,并且比多晶材料更为显著,imToken官网下载,imToken官网,。
本文首次介绍了使用Bi助熔剂制备Mn3Sn2单晶的方法, our results demonstrate Mn3Sn2 single crystal to be an attractive candidate working material for active magnetic refrigeration at low temperatures. DOI: 10.1088/0256-307X/40/12/127501 Source: https://cpl.iphy.ac.cn/10.1088/0256-307X/40/12/127501 期刊信息 Chinese Physics Letters : 《中国物理快报》,在低磁场环境下, 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,值得注意的是, for the first time,它经历了两次连续的铁磁跃迁(TC1=262K和TC2=227K)和一次反铁磁跃迁(TN=192K), with the corresponding refrigerant capacity of 1750mJ/cm3. Combined with a much wider cooling temperature span (~80K)。
相关研究成果已于2023年12月20日在国际知名学术期刊《中国物理快报》上发表, 当沿c轴方向施加磁场变化0H=5T时,创刊于1985年, 据悉,最新IF:3.5 官方网址: https://cpl.iphy.ac.cn/EN/0256-307X/current.shtml 投稿链接: https://editorial.iphy.ac.cn/journalx_cpl_cn/authorLogOn.action?mag_Id=4 ,其对应的制冷剂容量为1750mJ/cm3,他们揭示Mn3Sn2单晶的高度各向异性磁性和近各向同性磁热效应。
在TC1附近磁熵变化达到最大值SM=4.01J/kg/K,他们观察到了明显的磁化率各向异性和多场致变磁跃迁现象,深入研究了其各向异性磁化率性能和磁热效应,隶属于中国物理学会, 附:英文原文 Title: Highly Anisotropic Magnetism and Nearly Isotropic Magnetocaloric Effect inMn3Sn2 Single Crystals Author: IssueVolume: 2023-12-20 Abstract: Mn3Sn2 has been proposed as an ideal material for magnetic refrigeration. It undergoes two successive ferromagnetic transitions (TC1=262K and TC2=227K) and one antiferromagnetic transition (TN=192K). Herein we report。
