Direct and Inverse Magnetocaloric Effects in FeRh Alloy: A Theoretical Study

Hung Ba Tran, H. Momida, Kazunori Sato, Y. Makino, T. Oguchi, T. Fukushima
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Abstract

There are two types of magnetocaloric effects that are the so-called direct and inverse effects originating from ferromagnetic-paramagnetic (FM-PM) and antiferromagnetic--ferromagnetic (AFM-FM) phase transitions, respectively. Here, the magnetocaloric effects of FeRh alloy, which exhibit both the direct and inverse effects, have been studied by combining first-principles calculations and Monte-Carlo simulations. The magnetic exchange coupling constants in the AFM and FM phases are evaluated by first-principles calculations based on the Liechtenstein formula. The Monte-Carlo calculations considering the two-phase mixtures of AFM and FM well reproduce the experimental magnetization curves at zero external magnetic field. It is also shown that the isothermal magnetic entropy changes near the AFM-FM transition temperature under magnetic fields are successfully reproduced based on the Maxwell relation. The entropy changes in a wide range of the magnetic fields near the AFM-FM and FM-PM transition temperatures are investigated and the direct and inverse magnetocaloric effects of FeRh are discussed. The giant relative cooling power of FeRh alloy is achieved due to the large saturation magnetizations and the first-order AFM-FM phase transition.
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铁合金的正、逆磁热效应的理论研究
有两种类型的磁热效应,即所谓的直接效应和反向效应,分别源于铁磁-顺磁(FM-PM)和反铁磁-铁磁(AFM-FM)相变。本文采用第一性原理计算和蒙特卡罗模拟相结合的方法,研究了铁氢合金的正、逆磁热效应。采用基于列支敦士登公式的第一性原理计算方法,计算了AFM相和FM相的磁交换耦合常数。考虑AFM和FM两相混合物的蒙特卡罗计算可以很好地再现零外加磁场下的实验磁化曲线,并表明在磁场作用下,基于麦克斯韦关系的AFM-FM相变温度附近的等温磁熵变化可以成功再现。研究了在AFM-FM和FM-PM转变温度附近的大范围磁场中的熵变,并讨论了FeRh的正、逆磁热效应。高饱和磁化强度和一阶AFM-FM相变使得铁氢合金具有巨大的相对冷却能力。
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