AIP Advances (Feb 2023)

Synthesis, crystal structure, and magnetic properties of CoMoFeAl and related compounds

  • Gavin Baker,
  • Jax Wysong,
  • Shah Valloppilly,
  • Paul Shand,
  • Pavel Lukashev,
  • Parashu Kharel

DOI
https://doi.org/10.1063/9.0000396
Journal volume & issue
Vol. 13, no. 2
pp. 025213 – 025213-5

Abstract

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We have carried out joint theoretical and experimental investigations of three Heusler compounds CoMoFeAl, CoMo0.5Fe1.5Al, and Co1.5Mo0.5FeAl. Our first-principle calculations show that all three compounds show either ferro- or ferrimagnetic order with CoMoFeAl and CoMo0.5Fe1.5Al exhibiting high spin polarization of almost 80%. The investigated samples were prepared using arc melting and high vacuum annealing. All the samples show cubic crystal structure with disorder. The parent compound CoMoFeAl shows a small saturation magnetization of 12 emu/g, and a Curie temperature of 440 K. The other two compounds, namely, Co1.5Mo0.5FeAl and CoMo0.5Fe1.5Al, show much higher saturation magnetizations of 62 emu/g and 59 emu/g, and substantially higher Curie temperatures of 950 K and 780 K, respectively.