Magnetic inhomogeneities in the quadruple perovskite manganite [Y2-xMnx]MnMnMn4O12

Abstract

A combination of competing exchange interactions and substitutional disorder gives rise to magnetic inhomogeneities in the [Y2-xMnx]MnMnMn4O12 x = 0.23 and x = 0.16 quadruple perovskite manganites. Our neutron powder scattering measurements show that both the x = 0.23 and x = 0.16 samples separate into two distinct magnetic phases; below T1 = 120 10 K the system undergoes a transition from a paramagnetic phase to a phase characterised by short range antiferromagnetic clusters contained in a paramagnetic matrix, and below T2 65 K, the system is composed of well correlated long range collinear ferrimagnetic order, punctuated by short range antiferromagnetic clusters. A sharp increase in the antiferromagnetic phase fraction is observed below 33 K, concomitant with a decrease in the ferrimagnetic phase fraction. Our results demonstrate that the theoretically proposed AFM phase is stabilised in the [Y2-xMnx]MnMnMn4O12 manganites in the presence of dominant B-B exchange interactions, as predicted.