Neutron diffraction studies of the magnetic ordering in the spinel oxide system Mg xCo 1− xCr xFe 2− xO 4

Abstract

Neutron diffraction studies were performed on the spinel oxide system Mg x Co 1− x Cr x Fe 2− x O 4 ( x = 0.0, 0.25, 0.50, 0.75 and 1.0) as a function of temperature. Presence of magnetic long-range order at low temperatures was confirmed from the evolution of Bragg reflections with the decrease of temperature. Magnetic structural properties were determined from the Rietveld analysis of neutron diffraction data recorded in the temperature range 10–810 K. Sublattice and net magnetic moments for various compositions at various temperatures were found out from the analysis. The transition temperatures were also determined for all the compositions. A decreasing ferrimagnetic order with increasing substitution was revealed from the decreasing ordered sublattice moments. Huge diffuse signals around the 111 Bragg diffraction line were observed in the neutron patterns of the composition x = 1.0 below the Curie temperature indicating the existence of magnetic spin clusters. Hysteresis and low field dc magnetization measurements were done on the compositions x = 0.75 and 1.0. Thermo-magnetic irreversibility in the zero-field cooled and field cooled magnetization together with a shallow transition below Curie temperature was also observed. The various observations suggest a canted ferrimagnetic ordering in the composition range x ≤ 0.75 and a semi-spin glass like behavior at x = 1.0. A super-paramagnetic behavior below the paramagnetic state is also suggestive from the observed features.