Effect of Ising-type Tb3+ ions on the low-temperature magnetism of La, Ca cobaltite

Abstract

Crystal and magnetic structures of the x=0.2 member of La 0.8-xTb xCa0.2CoO3 perovskite series have been determined from the powder neutron diffraction. Enhancement of the diffraction peaks due to ferromagnetic or cluster glass ordering is observed below TC=55 K. The moments evolve at first on Co sites, and ordering of Ising-type Tb3+ moments is induced at lower temperatures by a molecular field due to Co ions. The final magnetic configuration is collinear Fx for cobalt subsystem, while it is canted FxCy for terbium ions. The rare-earth moments align along local Ising axes within ab-plane of the orthorhombic Pbnm structure. The behavior in external fields up to 70-90 kOe has been probed by the magnetization and heat capacity measurements. The dilute terbium ions contribute to significant coercivity and remanence that both steeply increase with decreasing temperature. A remarkable manifestation of the Tb3+ Ising character is the observation of a low-temperature region of anomalously large linear term of heat capacity and its field dependence. Similar behaviours are detected also for other terbium dopings x=0.1 and 0.3.