R&D: Grain Density Control in FePt Granular Films for HAMR Media
Achieved 14T/in2 by maximizing number of nucleation sites in FePt-C granular film and found that surface free energy and lattice mismatch are crucial parameters for controlling grain density.
This is a Press Release edited by StorageNewsletter.com on March 20, 2023 at 2:01 pmJapanese Journal of Applied Physics has published an article written by Ippei Suzuki, and Yukiko Takahashi, National Institute for Materials Science, Tsukuba, Ibaraki 987-6543, Japan.
Abstract: “To realize high areal density hard disk drives (HDDs) larger than 4 Tbit/in2, ultrafine FePt grains of less than 5 nm and grain density larger than 24 T/in2 are required. Although there have been many investigations to reduce the grain size of FePt, there are few reports on the control of grain density. To increase the grain density, we focused on three aspects of the surface morphology and grain density: nucleation sites on the substrate surface, surface free energy, and lattice mismatch. We achieved 14T/in2 by maximizing the number of nucleation sites in the FePt-C granular film and found that the surface free energy and lattice mismatch are crucial parameters for controlling the grain density.“
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