Exchange bias-like effect in TbFeAl intermetallic induced by atomic disorder

Abstract

Exchange bias-like effect observed in the intermetallic compound TbFeAl, which displays a magnetic phase transition at Thc ≈ 198~K and a second one at Tlc ≈ 154~K, is reported. Jump-like features are observed in the isothermal magnetization, M (H), at 2~K which disappear above 8~K. The field-cooled magnetization isotherms below 10~K show loop-shifts that are reminiscent of exchange bias, also supported by training effect. Significant coercive field, Hc ≈ 1.5~T at 2~K is observed in TbFeAl which, after an initial increase, shows subsequent decrease with temperature. The exchange bias field, Heb, shows a slight increase and subsequent leveling off with temperature. It is argued that the inherent crystallographic disorder among Fe and Al and the high magnetocrystalline anisotropy related to Tb3+ lead to the exchange bias effect. TbFeAl is recently reported to show magnetocaloric effect and the present discovery of exchange bias makes this compound a multifunctional one. The result obtained on TbFeAl generalizes the observation of exchange bias in crystallographically disordered materials and gives impetus for the search for materials with exchange bias induced by atomic disorder.