A setup for direct measurement of the adiabatic temperature change in magnetocaloric materials

Abstract

In order to find a highly efficient, environment-friendly magnetic refrigerant, direct measurements of the adiabatic temperature change Tadb is required. Here, in this work, a simple setup for the Tadb measurement is presented. Using a permanent magnet Halbach array with a maximum magnetic field of 1.8 T and a rate of magnetic field change of 5 T/s, accurate determination of Tadb is possible in this system. The operating temperature range of the system is from 100 K to 400 K, designed for the characterization of materials with potential for room temperature magnetic refrigeration applications. Using the setup, the Tadb of a first-order and a second-order compound have been studied. Results from the direct measurement for the first-order compound have been compared with Tadb calculated from the temperature and magnetic field dependent specific heat data. By comparing results from direct and indirect measurements, it is concluded that for a reliable characterization of the magnetocaloric effect, direct measurement of Tadb should be adopted.