Effect of film morphology on the magnetic properties for Nd–Fe–B thin films

Abstract

The microstructure and magnetic properties of Nd–Fe–B thin films with a particulate structure were investigated. The nominal thickness of the Nd–Fe–B layer ( t N) was varied from 2 to 50 nm on a (0 0 1) Mo buffer layer. The films were grown with their c-axis perpendicular to the plane, and the morphology of the film with t N=2 nm was shown to be particulate from an atomic force microscope image. The slope of the initial magnetization curve became steeper by increasing the t N value in the initial magnetization curve, indicating that the film morphology composed of single domain particles changed to that of multi-domain particles with growth. The film with t N=8 nm, which had a structure consisting of a mixture of single and multiple domain particles, showed the maximum value of the coercivity measured in the direction perpendicular to the film plane ( H c) as 19.5 kOe.