Crystal structure and magnetic softness of Fe-Si polycrystalline films

Abstract

Magnetic softness of polycrystalline Fe‐based alloy films is investigated. From calculation of magnetocrystalline anisotropy and magnetostriction assuming the magnetization is confined in a certain crystal plane of bcc Fe or Fe‐Si alloy, Fe alloy films with (111) orientation parallel to the film plane are expected to have good magnetic softness. Fe‐6.9 wt. % Si polycrystalline films with various crystallographic orientations such as (100), (110), or (111) oriented parallel to the film plane plane are deposited on underlayers such as MgO, ZnO, and ZnSe by a high‐rate sputtering system. Fe‐Si films on ZnSe underlayers with (111) orientation exhibit smaller H_c and better thermal stability than those of films with other orientations. Magnetic softness and thermal stability are improved for the double‐layered films with those orientations. For multilayered Fe‐6.9 wt. % Si films on ZnSe underlayers, the H_c of deposited films is about 0.5 Oe, and is stable against annealing up to 500 °C.