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Half-metallic compositional ranges for selected Heusler alloys

Materials Science 2023-06-22 v1 Other Condensed Matter Applied Physics Computational Physics

Abstract

For a material that is a half-metal, there should exist a range of compositions for half-metallicity. This compositional range can be expressed in terms of electron count and computed. We investigate electronic and magnetic properties of doped full- and half-Heusler alloys (stoichiometry XYZ2 and XYZ, respectively) with elements X from groups 13-16 and periods 3-6 of the Periodic Table, Y={Mn, Fe}, and Z={Co, Ni}. Using spin density functional theory, we predict shifts of the Fermi energy in the doped and solid-solution alloys. These predictions can be used for band-gap engineering of multicomponent half-metals and provide the viable range of compositions, such as for a range of n=x+y+z in (Co2zNiz)_{2-z}Ni_z)(Mn1y_{1-y}Fey_{y})(Sn1x_{1-x}Sbx_{x}). This methodology for doped and chemically disordered half-metallic alloys offers a design approach to electronic-structure engineering that can accelerate development of half-metals for novel electronic and spintronic applications.

Keywords

Cite

@article{arxiv.2004.06233,
  title  = {Half-metallic compositional ranges for selected Heusler alloys},
  author = {Nikolai A. Zarkevich and Prashant Singh and A. V. Smirnov and Duane D. Johnson},
  journal= {arXiv preprint arXiv:2004.06233},
  year   = {2023}
}

Comments

13 pages, 14 figures, 6 tables

R2 v1 2026-06-23T14:50:06.169Z