Adiabatic temperature change around coinciding first and second order magnetic transitions in Mn3Ga(C0.85N0.15)

Abstract

The inverse magnetocaloric material in Mn3GaC relies on the presence of a first order antiferromagnetic–ferromagnetic transition at around 160K. Since Mn3GaN is antiferromagnetic, the partial substitution of carbon by nitrogen in Mn3GaC enhances the antiferromagnetic exchange and shifts this transition to higher temperatures. At the Mn3Ga(C0.85N0.15) stoichiometry, the transition takes place at 180K. The hysteresis at the transition reduces so that the inverse magnetocaloric effect is practically reversible. We study the magnetocaloric effect and the reversibility of the adiabatic temperature-change by magnetization and direct temperature-change measurements up to field-changes of 5T.