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Magnetic properties and magnetocaloric effects in NaZn13-type La(Fe, Al)13-based compounds
引用本文:沈保根,胡凤霞,董巧燕,孙继荣. Magnetic properties and magnetocaloric effects in NaZn13-type La(Fe, Al)13-based compounds[J]. 中国物理 B, 2013, 22(1): 17502-017502. DOI: 10.1088/1674-1056/22/1/017502
作者姓名:沈保根  胡凤霞  董巧燕  孙继荣
作者单位:State Key Laboratory for Magnetism, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China
基金项目:Project supported by the National Natural Science Foundation of China;the Key Research Program of the Chinese Academy of Sciences;the National Basic Research Program of China;the National High Technology Research and Development Program of China
摘    要:In this article,our recent progress concerning the effects of atomic substitution,magnetic field,and temperature on the magnetic and magnetocaloric properties of the LaFe13-xAlx compounds are reviewed.With an increase of the aluminum content,the compounds exhibit successively an antiferromagnetic(AFM) state,a ferromagnetic(FM) state,and a mictomagnetic state.Furthermore,the AFM coupling of LaFe 13-xAlx can be converted to an FM one by substituting Si for Al,Co for Fe,and magnetic rare-earth R for La,or introducing interstitial C or H atoms.However,low doping levels lead to FM clusters embedded in an AFM matrix,and the resultant compounds can undergo,under appropriate applied fields,first an AFM-FM and then an FM-AFM phase transition while heated,with significant magnetic relaxation in the vicinity of the transition temperature.The Curie temperature of LaFe13-xAlx can be shifted to room temperature by choosing appropriate contents of Co,C,or H,and a strong magnetocaloric effect can be obtained around the transition temperature.For example,for the LaFe 11.5Al1.5C0.2H1.0 compound,the maximal entropy change reaches 13.8 J·kg-1 ·K-1 for a field change of 0-5 T,occurring around room temperature.It is 42% higher than that of Gd,and therefore,this compound is a promising room-temperature magnetic refrigerant.

关 键 词:反铁磁性  磁热效应  化合物  磁特性  铝含量  室温磁制冷  LA  转变温度
收稿时间:2012-11-28

Magnetic properties and magnetocaloric effects in NaZn13-type La(Fe,Al)13-based compounds
Shen Bao-Gen,Hu Feng-Xia,Dong Qiao-Yan,and Sun Ji-Rong. Magnetic properties and magnetocaloric effects in NaZn13-type La(Fe,Al)13-based compounds[J]. Chinese Physics B, 2013, 22(1): 17502-017502. DOI: 10.1088/1674-1056/22/1/017502
Authors:Shen Bao-Gen  Hu Feng-Xia  Dong Qiao-Yan  and Sun Ji-Rong
Affiliation:State Key Laboratory for Magnetism, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China
Abstract:In this article, our recent progress concerning the effects of atomic substitution, magnetic field, and temperature on the magnetic and magnetocaloric properties of the LaFe13-xAlx compounds are reviewed. With an increase of the aluminum content, the compounds exhibit successively an antiferromagnetic (AFM) state, a ferromagnetic (FM) state, and a mictomagnetic state. Furthermore, the AFM coupling of LaFe13-xAlx can be converted to an FM one by substituting Si for Al, Co for Fe, and magnetic rare-earth R for La, or introducing interstitial C or H atoms. However, low doping levels lead to FM clusters embedded in an AFM matrix, and the resultant compounds can undergo, under appropriate applied fields, first an AFM-FM and then an FM-AFM phase transition while heated, with significant magnetic relaxation in the vicinity of the transition temperature. The Curie temperature of LaFe13-xAlx can be shifted to room temperature by choosing appropriate contents of Co, C, or H, and a strong magnetocaloric effect can be obtained around the transition temperature. For example, for the LaFe11.5Al1.5C0.2H1.0 compound, the maximal entropy change reaches 13.8 J·kg-1·K-1 for a field change of 0-5 T, occurring around room temperature. It is 42% higher than that of Gd, and therefore, this compound is a promising room-temperature magnetic refrigerant.
Keywords:La(Fe  Al)13 compounds  magnetocaloric effect  magnetic entropy change  magnetic phase transition
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