Re-evaluation of the impact of ternary additions of Ni and Cu on the A1 to L1 transformation in FePt films

  • B. Wang
    Department of Materials Science and Engineering and the Data Storage Systems Center, Carnegie Mellon University , 5000 Forbes Avenue, Pittsburgh, Pennsylvania 15213, USA
  • K. Barmak
    Department of Materials Science and Engineering and the Data Storage Systems Center, Carnegie Mellon University , 5000 Forbes Avenue, Pittsburgh, Pennsylvania 15213, USA

抄録

<jats:p>The impact of ternary additions of Ni (1.6–21.5 at. %) and Cu (1.3–17.3 at. %) on the A1 (face centered cubic, fcc) to L10 phase transformation in FePt films has been re-evaluated based on compositions obtained using energy dispersive x-ray spectrometry (EDS). The data presented here serve as corrections to results reported in six previous studies [D. C. Berry and K. Barmak, J. Appl. Phys. 102, 024912 (2007); 101, 014905 (2007); 99, 08G901 (2006); D. C. Berry, J. Kim, K. Barmak, K. Wierman, E. B. Svedberg, and J. K. Howard, Scr. Mater. 53, 423 (2005); K. Barmak, J. Kim, D. C. Berry, W. N. Hanani, K. Wierman, E. B. Svedberg, and J. K. Howard, J. Appl. Phys. 97, 024902 (2005); K. Barmak, J. Kim, D. C. Berry, K. W. Wierman, E. B. Svedberg, and J. K. Howard, ibid. 95, 7486 (2004)]. The new EDS compositions do not change the following conclusions of these previous studies: (i) when ternary FeNiPt and FeCuPt alloys are compared with binary FePt alloys with the same Pt content, it is seen that additions of Ni slow the transformation kinetics, whereas additions of Cu have no measurable impact on the kinetics, (ii) the Curie temperature of the L10 phase is lowered by additions of Ni or Cu, (iii) the Curie temperature of the A1 phase is increased by additions of Ni, but lowered by additions of Cu, and (iv) the transformation enthalpy is lowered by large additions of Ni, but is unaffected by additions of Cu. The ordering behavior of FeCuPt alloys as evidenced by the kinetic ordering temperature is compared with other reports in the literature based on magnetic measurements.</jats:p>

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