Magnetically soft and high-saturation-magnetization FeCo films fabricated by co-sputtering

Abstract

Magnetically soft FeCo films with high saturation magnetization were successfully obtained by co‐sputtering Fe~65~Co~35~ films onto a very thin Co~93~Fe~7~ seed layer. The coercivity of single FeCo films on the substrate was markedly reduced by increasing the deposition temperature and appropriately selecting the composition. The effect of composition and thickness of a high‐Co‐concentration Co~100–y~Fe__~y~__ (0 ≤ y ≤ 11) seed layer on the magnetic properties and structure of Co~100–y~Fe__~y~__ (0–10 nm)/Fe~65~Co~35~ (100 nm) films was studied. It was observed that the texture of Fe~65~Co~35~ films changed from (110) to (200) on using a Co~100–y~Fe__~y~__ seed layer. The appearance of (200) texture and film growth with less lattice strain improved the soft magnetic properties of FeCo films. A double‐layer Co~93~Fe~7~ (1 nm)/Fe~65~Co~35~ (100 nm) film was obtained with saturation magnetization μ~0~M~s~ = 2.4 T, easy‐axis coercivity H~ce~ = 1 kA/m, hard‐axis coercivity H~ch~ = 0.2 kA/m and anisotropy field H~K~ = 6.4 kA/m. (© 2005 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)