Phase Stability and Electronic Structure of Heusler Alloys Ti2VZ (Z = Al, As, Ga, Ge, In, P, Sb, Si, Sn)

Authors

  • Andrew Aleksandrovich Raev Author
  • Ksenia Romanovna Erager Author
  • Vladimir Vladimirovich Sokolovsky Author
  • Vasily Dmitrievich Buchelnikov Author

Abstract

The article deals with the chemical stability, structural, magnetic, and electronic properties of Ti2VZ (Z = Al, As, Ga, Ge, In, P, Sb, Si, Sn) alloys using density functional theory methods. All compounds are found thermodynamically stable, and their stability correlates with the valence electron concentration (e/a) and decreases for heavier elements. The magnetic properties depend on composition and the degree of tetragonality: in the cubic phase, an increase in e/a reduces magnetization intensity, whereas lattice distortion increases it. Half-metallic behavior with 100 % spin polarization appears at e/a = 4 and 4,25, while Ti2VSb (e/a = 4,5) acquires a semiconducting state with a narrow gap ~0,1 eV. The results agree with PBE functional calculations and demonstrate the advantages of the SCAN functional for accurate description of complex alloys.

Author Biographies

  • Andrew Aleksandrovich Raev
    Post-graduate Student
  • Ksenia Romanovna Erager
    Cand. Sc. (Physics and Mathematics)
  • Vladimir Vladimirovich Sokolovsky
    Dr. Sc. (Physics and Mathematics), Associate Professor
  • Vasily Dmitrievich Buchelnikov
    Dr. Sc. (Physics and Mathematics), Professor

Published

2025-08-14

Issue

Vol. 17 No. 3 (2025)

Section

Physics