论文信息 - Composite nanogranular films of FePt-MgO with (001) orientation onto glass substrates

Composite nanogranular films of FePt-MgO with (001) orientation onto glass substrates

For perpendicular magnetic recording, a design of using MgO as a seed layer and an intermediate layer is introduced. By annealing the multilayer film with a stack structure of MgO/[FePt/MgO]3 at 600 °C for 1 min, nanograins of FePt with a high perpendicular magnetic anisotropy are obtained on a glass substrate. This high magnetic anisotropy results from the (001) texture of L10 phase developed along the film normal. A thin MgO layer ranging 1.0 to 3.0 nm in thickness plays an important role in developing the (001) texture of L10 FePt and magnetically decoupling the FePt particles. Varying a layer thickness of the FePt layer enables to control the crystalline structure and the magnetic properties, resulting in the films with a controllable FePt grain size as small as several nanometers, a high remanence squareness, and a high coercivity.

[1] T. Ohkubo,et al. Size effect on the ordering of FePt granular films , 2003 .

[2] M. McHenry,et al. Growth and characterization of L1/sub 0/ FePt and CoPt [001] textured polycrystalline thin films , 2001 .

[3] C. Papusoi,et al. Magnetic anisotropy field dispersion characterization of advanced perpendicular and longitudinal media , 2002 .

[4] B. Cheong,et al. MgO seed layers for CoCrPt/Cr longitudinal magnetic recording media , 1995 .

[5] Masato Watanabe,et al. Perpendicular Magnetization of Epitaxial FePt(001) Thin Films with High Squareness and High Coercive Force , 1996 .

[6] Takenobu Suzuki,et al. FePt (001) texture development on an Fe–Ta–C magnetic soft underlayer with SiO2/MgO as an intermediate layer , 2003 .

[7] Yu-Nu Hsu,et al. Magnetic properties of nanostructured CoPt and FePt thin films , 2000 .

[8] Young Keun Kim,et al. Rapid ordering of Zr-doped FePt alloy films , 2001 .

[9] Takenobu Suzuki,et al. (001) oriented FePt–Ag composite nanogranular films on amorphous substrate , 2003 .

[10] Jian-Gang Zhu,et al. Reversal mechanisms and domain structures in thin‐film recording media (invited) , 1991 .