Unusual Nature of the Abrupt Magnetic Transition in FeRh and Its Pseudobinary Variants

Abstract

Previous measurements of the critical temperature (T_crit) for the first‐order antiferromagnetic‐ferromagnetic transition in FeRh as a function of magnetic field have established that the total entropy change at the transition (ΔS) is much larger than the estimated change in lattice entropy (ΔS)_lat. This study has now been extended to pseudobinary variants of FeRh where the Rh is partially replaced by Pd, Pt, or Ir, resulting in a large decrease or increase of T_crit from its value (about 330°K) for FeRh. In each case, a value for ΔS was deduced from the measured field dependence of T_crit. The difference between each ΔS and an estimated (ΔS)_lat value, when plotted vs T_crit, defines a smooth curve with a maximum at about 500°K, which is just below the Curie points of these alloys. It is therefore concluded that ΔS−(ΔS)_lat represents an entropy change of magnetic origin. This anomalous change in magnetic entropy is attributed to thermal excitation of the Rh moments which in the ferromagnetic state are induced by the net exchange field from neighboring Fe moments; in the antiferromagnetic state this net exchange field vanishes, and the induced Rh moments and their contribution to the entropy go essentially to zero.