Litcius/Paper detail

Anisotropy of the magnetocaloric effect: Example of Mn5Ge3

Nour Maraytta, J. Voigt, C. Salazar Mejía, Karen Friese, Y. Skourski, J. Perßon, Salah M.M. Salman, Thomas Brückel

2020Journal of Applied Physics20 citationsDOIOpen Access PDF

Abstract

We have investigated the field direction dependence of thermo-magnetic behavior in single crystalline Mn5Ge3. The adiabatic temperature change ΔTad in pulsed fields, the isothermal entropy change ΔSiso calculated from static magnetization measurements, and heat capacity have been determined for fields parallel and perpendicular to the easy magnetic direction [001]. The isothermal magnetization measurements yield, furthermore, the uniaxial anisotropy constants in second and fourth order, K1 and K2. We discuss how the anisotropy affects the magneto-caloric effect (MCE) and compare the results to the related compound MnFe4Si3, which features an enhanced MCE, too, but instead exhibits strong easy plane anisotropy. Our study reveals the importance of magnetic anisotropy and opens new approaches for optimizing the performance of magnetocaloric materials in applications.

Topics & Concepts

Magnetic refrigerationAnisotropyCondensed matter physicsAdiabatic processMagnetic anisotropyMagnetizationIsothermal processMaterials scienceMagnetic fieldYield (engineering)ThermodynamicsPhysicsOpticsMetallurgyQuantum mechanicsMagnetic and transport properties of perovskites and related materialsShape Memory Alloy TransformationsRare-earth and actinide compounds