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Spontaneous and field-induced phase transitions in TbFe5Al7

Publication at Faculty of Mathematics and Physics |
2014

Abstract

Magnetization and ultrasound measurements have been performed on a TbFe5Al7 single crystal (tetragonal crystal structure) in the temperature range from 2 to 260 K in steady magnetic fields up to 18 T and in pulsed magnetic fields up to GOT, The compound is a ferrimagnet (T-C=242 K) having an easy plane anisotropy. Strong anisotropy is also present within the basal plane.

AL 2 K, the easy magnetization direction is the [100] axis. In the vicinity of the compensation temperature, T-comp=84 K, TbFe5Al7 displays a spin reorientation transition from [100] to the [110] axis accompanied by pronounced anomalies in the relative sound velocity change and sound attenuation.

Further, field induced magnetic transitions have been observed in TbFe5Al7 by magnetization ad acoustic measurements. Step wise rotation of the magnetic moments with a wide hysteresis occurs for fields applied along the [100] axis at T T-comp.

The relative sound velocity change displays sharp minima and the sound attenuation sharp maxima at the transitions. The critical field of the transitions tends to zero near the compensation point and grows sharply away from it reaching 19 and 33 T for Fields applied along the [100] and [110] directions, respectively.

The Tb-Fe inter-sublattice exchange constant has been determined directly from the high-field data and using molecular-field theory.