The role of Debye temperature in achieving large adiabatic temperature changes at cryogenic temperatures: a case study on Pr2In
Abstract
The excellent magnetic entropy change ( ST) in the temperature range of 20 77 K due to the first-order phase transition makes Pr2In an intriguing candidate for magnetocaloric hydrogen liquefaction. As an equally important magnetocaloric parameter, the adiabatic temperature change ( Tad) of Pr2In associated with the first-order phase transition has not yet been reported. In this work, the Tad of Pr2In is obtained from heat capacity measurements: 2 K in fields of 2 T and 4.3 K in fields of 5 T. While demonstrating a Tad that is not as impressive as its remarkable ST, Pr2In exhibits an unusual low Debye temperature (TD) of around 110 K. Based on these two observations, an approach that combines the mean-field and Debye models is developed to study the correlation between Tad and TD. The role of TD in achieving large Tad is revealed: materials with higher TD tend to exhibit larger Tad, particularly in the cryogenic temperature range. This discovery explains the absence of an outstanding Tad in Pr2In and can serve as a tool for designing or searching materials with both a large ST and a Tad.
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