The structural consequences of charge disproportionation in mixed-valence iron oxides. I. The crystal structure of Sr 2LaFe 3O 8.94 at room temperature and 50 K

Abstract

The crystal structure of the averaged-valence phase of the rhombohedrally distorted perovskite Sr 2La Fe 3O 8.94 has been refined from neutron powder diffraction data collected at room temperature (space group R3¯c, a = 5.4712Å, α = 60.09°). All iron sites are identical. The crystal and magnetic structures of the low-temperature antiferromagnetic phase showing a charge disproportionation have been similarly obtained at 50 K. The crystal structure has been refined in space group R3¯c, a = 5.4580Å, α = 60.19°; the magnetic structure has been refined in P3¯m1 using a model derived from considerations of the exchange interactions between ideal localized electron configurations. The results are interpreted in terms of a charge density wave (CDW) and spin density wave (SDW) propagating along the [111] axis of the crystal and commensurate with the crystal lattice. The apparent absence of a periodic structural distortion (PSD) of the same period as the CDW is surprising, and it is suggested that local variations in the strain field brought about by the disordered arrangement of Sr and La may quench the PSD which would otherwise occur.