Revisiting the Magnetic Structure and Charge Ordering in La1/3Sr2/3FeO3 by Neutron Powder Diffraction and M\"ossbauer Spectroscopy

Abstract

The magnetic ordering of La1/3Sr2/3FeO3 perovskite has been studied by neutron powder diffraction and 57Fe M\"ossbauer spectroscopy down to 2 K. From symmetry analysis, a chiral helical model and a collinear model are proposed to describe the magnetic structure. Both are commensurate, with propagation vector k = (0,0,1) in R-3c space group. In the former model, the magnetic moments of Fe adopt the magnetic space group P3221 and have helical and antiferromagnetic ordering propagating along the c axis. The model allows only one Fe site, with a magnetic moment of 3.46(2) μB at 2 K. In the latter model, the magnetic moments of iron ions adopt the magnetic space group C2/c or C2'/c' and are aligned collinearly. The model allows the presence of two inequivalent Fe sites with magnetic moments of amplitude 3.26(3) μB and 3.67(2) μB, respectively. The neutron diffraction pattern is equally well fitted by either model. The M\"ossbauer spectroscopy study suggests a single charge state Fe3.66+ above the magnetic transition and a charge disproportionation into Fe(3.66-ζ)+ and Fe(3.66+2ζ)+ below the magnetic transition. The compatibility of the magnetic structure models with the M\"ossbauer spectroscopy results is discussed.