Novel nanostructure and magnetic properties of Co–Fe–Hf–O films

The influence of the partial pressure of oxygen (PO2) on the microstructural and magnetic properties of sputtered Co?Fe?Hf?O films has been studied. It is shown that the films prepared under PO2 = 6?11.5% with large saturation magnetization, 4?Ms~18?21?kG, large hard-axis anisotropy field, HkH~30?84?Oe, and high electrical resistivity, ?~1400?3600????cm, are excellent candidate materials for high-frequency applications of micromagnetic devices such as magnetic thin film inductors, transformers and thin film flux gate sensors. In particular, the good soft magnetic properties of Co19.35Fe53.28Hf7.92O19.35 nanocomposite films of 50?437?nm thickness, in addition to their high electrical resistivity, make them ideal for use in micromagnetic devices with an opening bandwidth of several gigahertz. This is attributed to the formation of a peculiar nanostructure in these samples. A strong magnetic phase separation appears to occur as the film thickness increases over 437?nm, which, in turn, modifies the high-frequency magnetic behaviour of the Co19.35Fe53.28Hf7.92O19.35 film.

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