The crystal structure and ferrimagnetism of yttrium-iron garnet, Y3Fe2(FeO4)3

Abstract A refinement of the crystal structure of yttrium-iron garnet (cubic space group—Ia3d) has been carried out by application of the least-squares method of calculation to single-crystal X-ray data. The oxygen parameters arex = −0.0274, y = 0.0572,z = 0.1492; the tetrahedral iron-oxygen distance is 1.88 A, the octahedral iron-oxygen distance is 2.00 A and the yttrium-oxygen distances are 2.37 and 2.43 A. None of the oxygen polyhedra is regular even though the space group would allow the tetrahedra and octahedra to be regular simultaneously. Interionic distances and angles which are important to the interaction between magnetic ions have been calculated. The strongest interactions probably occur between Fe3+ in 16(a) and 24(d) positions and between Fe3+, 24(d), and M3+, a magnetic rare-earth ion substituted for yttrium, in the 24(c) positions. Interactions between crystallographically equivalent ions are all small. The number of interactions per Fe3+ ion per formula unit is 3 5 that in a spinel “ferrite” and, correspondingly, the Curie temperature observed is 0.64 that of magnetite. No change of symmetry is observed up to 900°C, and the behavior of the lattice constant, a0 vs. T is consistent with the presence of a Curie transition.

[1]  D. Phillips On the visual estimation of X-ray reflexion intensities from upper-level Weissenberg photographs. II. Charts for the correction of reflexion spot extension , 1956 .

[2]  R. Roy,et al.  Structural relations among double oxides of trivalent elements , 1954 .

[3]  L. Néel,et al.  Propriétés magnétiques des ferrites ; ferrimagnétisme et antiferromagnétisme , 1948 .

[4]  G. Menzer XX. Die Kristallstruktur der Granate , 1929 .

[5]  J. V. Vleck Recent developments in the theory of antiferromagnetism , 1951 .

[6]  H. A. Kramers L'interaction Entre les Atomes Magnétogènes dans un Cristal Paramagnétique , 1934 .

[7]  C. Kittel,et al.  Antiferromagnetic Arrangements in Ferrites , 1952 .

[8]  Philip W. Anderson,et al.  Antiferromagnetism. Theory of Superexchange Interaction , 1950 .

[9]  C. Macgillavry,et al.  New calculations of atomic scattering factors , 1955 .

[10]  J. M. Hastings,et al.  Neutron Diffraction Study of Manganese Ferrite , 1956 .

[11]  S. Geller,et al.  Structure and ferrimagnetism of yttrium and rare‐earth–iron garnets , 1957 .

[12]  H. S. Yoder,et al.  Complete substitution of aluminum for silicon: The system 3MnO · Al2O3 · 3SiO2—3Y2O3 · 5Al2O3 , 1951 .

[13]  B. Skinner Physical properties of end-members of the garnet group , 1956 .

[14]  E. A. Wood,et al.  Crystallographic studies of perovskite‐like compounds. I. Rare earth orthoferrites and YFeO3, YCrO3, YAlO3 , 1956 .

[15]  M. A. Gilleo Magnetic Properties of a Gadolinium Orthoferrite, GdFeO3, Crystal , 1956 .