Origin and tuning of the magnetocaloric effect for the magnetic refrigerant MnFe(P1-xGex)

Danmin Liu; Jeffrey W. Lynn; Jiying Li; Ming Yue Jiuxing Zhang; Qingzhen Huang; R. J. Cava; T. M. McQueen; Xiaolu Wang; Xubo Liu; Ying Chen

arxiv: 0807.3707 · v2 · submitted 2008-07-23 · ❄️ cond-mat.mtrl-sci · cond-mat.str-el

Origin and tuning of the magnetocaloric effect for the magnetic refrigerant MnFe(P1-xGex)

Danmin Liu , Ming Yue Jiuxing Zhang , T. M. McQueen , Jeffrey W. Lynn , Xiaolu Wang , Ying Chen , Jiying Li , R. J. Cava

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Xubo Liu Zaven Altounian Qingzhen Huang

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classification ❄️ cond-mat.mtrl-sci cond-mat.str-el

keywords magneticchangeentropyfieldrefrigeranttuningachievedcontrolled

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Neutron diffraction and magnetization measurements of the magneto refrigerant Mn1+yFe1-yP1-xGex reveal that the ferromagnetic and paramagnetic phases correspond to two very distinct crystal structures, with the magnetic entropy change as a function of magnetic field or temperature being directly controlled by the phase fraction of this first-order transition. By tuning the physical properties of this system we have achieved a maximum magnetic entropy change exceeding 74 J/Kg K for both increasing and decreasing field, more than twice the value of the previous record.

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Origin and tuning of the magnetocaloric effect for the magnetic refrigerant MnFe(P1-xGex)

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