Large magnetocaloric effect in HoFeO3 single crystal

Magnetocaloric properties of HoFeO3 single crystal are investigated along the direction [100]. Magnetic field dependent magnetization isotherms at different temperatures undergo a metamagnetic transition, entropy change as large as 19.2J/kgK and 15.8J/kgK are obtained at 7T in the vicinity of antife...

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Bibliographic Details
Published inSolid state communications Vol. 152; no. 11; pp. 947 - 950
Main Authors Shao, Mingjie, Cao, Shixun, Wang, Yabin, Yuan, Shujuan, Kang, Baojuan, Zhang, Jincang
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.06.2012
Elsevier
Subjects
A. Orthoferrite
Condensed matter: electronic structure, electrical, magnetic, and optical properties
D. Magnetic entropy
D. Metamagnetism
D. Spin reorientation
Exact sciences and technology
Magnetic properties and materials
Magnetically ordered materials: other intrinsic properties
Magnetocaloric effect, magnetic cooling
Physics
D. Spin reorientation
A. Orthoferrite
D. Metamagnetism
D. Magnetic entropy
Antiferromagnetism
A Orthoferrite
Magnetization
Iron Holmium Oxides Mixed
D Spin reorientation
Magnetic field effects
Orthoferrites
Spin reorientation
D Magnetic entropy
Magnetic refrigerators
Metamagnetism
Monocrystals
Magnetocaloric effects
Compensation point
D Metamagnetism
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Summary:Magnetocaloric properties of HoFeO3 single crystal are investigated along the direction [100]. Magnetic field dependent magnetization isotherms at different temperatures undergo a metamagnetic transition, entropy change as large as 19.2J/kgK and 15.8J/kgK are obtained at 7T in the vicinity of antiferromagnetic ordering temperature of Ho3+ and the metamagnetic transition, respectively. The coupling of Ho and Fe spins generates the compensation behavior at 6.5K, separating the two large magnetic entropy change. Its refrigeration capacity (RC) value, as high as 220J/kg, is appreciable and can be considered as a promising magnetic refrigerant. New evidence for spin reorientation of Fe3+ in HoFeO3 is also provided by the change of magnetic entropy. ► We calculate the magnetic entropy of HoFeO3 single crystal firstly. ► We find the exotic magnetic entropy phenomenon and give the reasonable explain. ► The new spin reorientation evidence is supported. ► The large RC value indicates the material to be potential magnetic refrigerant.
ISSN:0038-1098
1879-2766
DOI:10.1016/j.ssc.2012.03.030