Self-thermometry measurements of the adiabatic temperature change in first-order phase transition magnetocaloric materials
Abstract
Accurately measuring the magnetocaloric effect is necessary to foster the development of magnetic refrigeration devices. However, current methods are inconvenient, requiring different instruments to measure each individual property or a custom-made setup. By measuring the time-varying magnetization in a commercially available VersaLab PPMS from Quantum Design, we have determined the adiabatic temperature change (ad) of the first-order phase transition material Gd5Si2Ge2, for a magnetic field change of 0 to 1 T, under high vacuum (< 0.1 mTorr). For each temperature and magnetic field, the equilibrium magnetization is used as the magnetization-to-temperature conversion curve, allowing us to extend the validity of a previously proposed technique to the first-order phase transition material Gd5Si2Ge2, which exhibits significant hysteresis. Our method thus enables full characterization (magnetic entropy change, adiabatic temperature change, and heat capacity) of any magnetocaloric material, whether it has a first-order or a second-order phase transition, using a single instrument. Comparing to a directly measured ad, our method resulted in a peak ad value of 4.47 K, within 1\% of the directly measured value for a sample of the same composition.
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