Reducing the operational magnetic field in the prototype magnetocaloric system Gd₅Ge₄ by approaching the single cluster size limit

Abstract

We studied polycrystalline samples of the prototype magnetocaloric system Gd₅Ge₄ using scanning Hall imaging and global magnetometry. The magnetic field required to complete the phase transition that is critical for magnetocaloric application is reduced by up to 20% when small fragments, each consisting of several randomly oriented crystallites, are removed from the bulk. The removal of competing strain fields from neighboring grains when the fragment is embedded in the bulk underlies the observation. We support the results by showing local Hall imaging of phase separation in the bulk. When the bulk is ground into a fine powder, the effect vanishes.