AIP Advances (Jul 2013)

Analysis of magnetic structures of iron nitrides by Landau's theory of second-order phase transitions

  • H. N. Fang,
  • R. Zhang,
  • B. Liu,
  • Z. K. Tao,
  • M. W. Xiao,
  • X. F. Wang,
  • Z. L. Xie,
  • X. Q. Xiu,
  • Y. D. Zheng

DOI
https://doi.org/10.1063/1.4817589
Journal volume & issue
Vol. 3, no. 7
pp. 072136 – 072136

Abstract

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The magnetic structures of iron nitrides are studied by Landau's theory of second-order phase transitions. It is found that the magnetization direction of ɛ-Fe3N must be parallel to the c-axis of the hexagonal structure, which may conclude the debates on the easy axes of ɛ-Fe3N in this field. The easy axes of α″-Fe16N2 are turned out to be along [001], or [100], or [110] direction, with the former two cases already found by the experiments. The magnetization along [111] is forbidden, which solves rigorously the puzzle why the easy axes of the α″-Fe16N2 on InGaAs and Fe are different from each other. Finally, the magnetic structure of γ′-Fe4N is also determined, and the result shows that there are three possibilities for the magnetization: parallel to the axial, or the body diagonal, or the face diagonal direction of the cubic structure, among which the first case has been found in experiments.