AIP Advances (May 2017)

MgO-C interlayer for grain size control in FePt-C media for heat assisted magnetic recording

  • B. S. D. Ch. S. Varaprasad,
  • Bing Zhou,
  • Tong Mo,
  • David E. Laughlin,
  • Jian-Gang Zhu

DOI
https://doi.org/10.1063/1.4973500
Journal volume & issue
Vol. 7, no. 5
pp. 056503 – 056503-5

Abstract

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Currently, the most common recording media used for heat assisted magnetic recording is granular L10 based FePt-C directly deposited on a highly textured polycrystalline MgO underlayer. In this study, a thin granular MgO-C interlayer is inserted between the MgO underlayer and the granular L10-FePt-C magnetic layer to control the grain size of the magnetic media. By varying the deposition conditions of the MgO-C interlayer, we can vary the size of the L10-ordered FePt grains from about 10.5 nm to 7.6nm, while keeping the carbon composition in the magnetic layer unchanged. With the optimized interlayer, the L10-FePt-C media of grain size to 7.6 nm shows good squareness and perpendicular coercivity of 47 kOe as well as an order parameter of S = 0.85.