AIP Advances (Jan 2020)

TEM observation of nitrogen-tunable bcc–bct–fcc transformation of iron-cobalt with added vanadium

  • Takashi Hasegawa,
  • Chihiro Shirai,
  • Yusuke Takemasa,
  • Yuki Seki

DOI
https://doi.org/10.1063/1.5128398
Journal volume & issue
Vol. 10, no. 1
pp. 015110 – 015110-5

Abstract

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We used transmission electron microscopy (TEM) to observe tunable bcc–bct–fcc transformation of FeCo films caused by the addition of auxiliary elements. The crystal structure of the FeCo with added V was bcc, and the transformation of the bcc structure through the bct to fcc was found to depend on the N content (x). TEM observation revealed that bct structure with c/a = 1.12 was obtained for x = 1.7 atomic%, while fcc structure with c/a = 2 was obtained for x = 9.6 atomic%. The c/a-values depended on x, so the bcc–bct–fcc transformation of the FeCoV was tunable by N content. This research was made possible by special preventative measures taken during preparation to avoid compressive stress, which could otherwise induce the bct FeCo lattice of axial ratio c/a > 1.00 to transform to bcc structure. A FeCo coating of thickness 20 nm was therefore deposited directly on a MgO substrate without any other metallic layers.