Ab initio studies of structural stability and magnetism in Ni3In

G. Y. Guo, Y. K. Wang, Li Shing Hsu

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12 Citations (Scopus)


To understand the structural stability and magnetism in the intermetallic compound Ni3In, we have performed total energy and electronic structure calculations for Ni3In as well as Ni3Al in the cubic L12, tetragonal D022, and hexagonal D019 structures. The highly accurate full-potential linearized augmented-plane-wave method has been used. The calculations are based on first- principles density-functional theory with generalized gradient approximation. The theoretical equilibrium lattice constants and bulk moduli of both the compounds are in good agreement with available experiments. Surprisingly, unlike Ni3Al and other related intermetallics, Ni3In in the nonmagnetic state is predicted to energetically favor the D022 structure rather than the L12 structure. However, the L12 and D019 structures are found to be magnetically unstable while the D022 structure is not. Ferromagnetism would make the L12 structure slightly lower in energy than the D022 structure by merely 7 meV/f.u. Therefore, the present theoretical work suggests that Ni3In at low temperatures is a weak ferromagnet and undergoes a structural and magnetic phase transformation as the temperature is raised to the room temperature. This picture would allow one to consistently interpret previous structural experiments and measured x-ray absorption spectra. Moreover, it is also predicted that unlike Ni3Al and other related intermetallics, there would be a pressure-induced structural phase transition from the L12 to D022 in Ni3In at low temperatures. It is hoped that these interesting findings would stimulate further experimental investigations such as temperature-dependent structural, specific-heat, and magnetization experiments on this nearly or weakly magnetic intermetallic compound.

Original languageEnglish
Article number054440
Pages (from-to)544401-544408
Number of pages8
JournalPhysical Review B - Condensed Matter and Materials Physics
Issue number5
Publication statusPublished - 2002 Aug 1

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics


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