Cation size disorder as the crucial determinant of the unusual magnetic and electronic propertiesof Gd0.5Ba0.5CoO3

Abstract

An investigation of three series of cobaltates of the formulaeGd0.5−xLnxBa0.5CoO3−δ (Ln = Nd or La)and La0.5−xNdxBa0.5CoO3−δ demonstrates the effects of the average radius of the A-site cations, , on the magnetic and electrical properties. Thus, the anomalous magnetic properties ofGd0.5Ba0.5CoO3,such as the transitions in the range 220–290 K, disappear, even with a small substitution of Nd or Lain place of Gd, and a gradual evolution of ferromagnetism occurs at low temperatures (130–190 K).Gd0.5Ba0.5−xSrxCoO3, on the other hand, shows increasing ferromagnetic properties with increase inx although the decreases, suggesting the role of size disorder. Studies of cobaltates of the type with fixed values of 1.317 and 1.289 Å (the latter corresponding toGd0.5Ba0.5CoO3),reveal that on decreasing the size disorder, the materials become ferromagnetic with relative highTc values. These cobaltates also exhibit size disorder controlled metal–insulatortransitions, the compositions with high disorder being insulators. The properties ofDy0.5Ba0.5CoO3 are consistent with the presence of size disorder in this material.