Magnetic Structure of Fe2As

Abstract

Magnetic structure of single crystal of Fe₂As, which corresponds to C38 type of crystal structure, the same as that of Mn₂Sb, has been determined by neutron diffraction method. The crystal is antiferromagnetic with the Néel temperature of approximately 50°C. A series of (00l)‐type reflections at room temperature reveals magnetic superstructure reflections at (001/2), (003/2), (005/2), and (007/2). These reflections disappear when the temperature of the specimen is elevated to 50°C, whereas the main reflections do not show any changes within the experimental error. One of the remarkable features of the relative intensities of the superstructure reflections is that the (003/2) reflection is considerably weak relative to (005/2). From these results it can be concluded that this crystal has such an antiferromagnetic arrangement that Fe_II, Fe_I, and Fe_II atoms, each on three successive layers parallel to the (001) plane, form a group in which the magnetic moments are parallel to one another, and these moments are antiparallel to those of the neighboring groups. The [001] spacing of the magnetic unit cell is two times as large as that of the chemical unit cell.