Magnetic In-Plane Components of FePt Nanogranular Film on Polycrystalline MgO Underlayer for Heat-Assisted Magnetic Recording Media

A systematic study is conducted on the effect of MgO substrate/underlayer in terms of the surface roughness, grain boundary, and crystallographic texture on the magnetic in-plane components of the FePt-based heat-assisted magnetic recording (HAMR) media. Cross-sectional transmission electron microscope observations revealed that good (001) texture can be developed in FePt granular films even when they are grow on a rough surface of a single crystal-MgO (001) substrate or across the grain boundaries of a (001)-textured polycrystalline-MgO underlayer. The misoriented FePt grains with magnetic easy axes (c-axes) tilted away from the film normal direction mainly originate from their epitaxial growth on an initially misoriented MgO underlayer grains. Micromagnetic simulation results revealed that the FePt grains with misorientation angles larger than ~20º are attributed to the detected magnetic in-plane components (medium noise). Based on these experimental results, we discuss how to improve the (001) texture of the polycrystalline underlayer as well as to develop FePt-based HAMR media with enhanced signal-to-noise ratio.

Keywords: FePt, in-plane component, surface roughness, grain boundary, crystallographic texture

Suggested Citation: Suggested Citation

Wang, Jian and Sepehri-Amin, H. and Takahashi, Y. K. and Ohkubo, T. and Hono, K., Magnetic In-Plane Components of FePt Nanogranular Film on Polycrystalline MgO Underlayer for Heat-Assisted Magnetic Recording Media (June 9, 2019). Available at SSRN: https://ssrn.com/abstract=3401357 or http://dx.doi.org/10.2139/ssrn.3401357