Influence Of The Magnetic Field On The Structural Characteristics Of Granular Coxag100-X Thin Film Alloys

We investigated structural-phase state, magnetic and magnetoresistive properties in as-deposited CoxAg100-x thin film alloys with a thickness of 35 nm as a function of composition (20 <= x <= 80 at.%). The aim of this work was to obtain a granular thin film alloy CoxAg100-x with the maximum amplitude of the giant magnetoresistance (GMR) and study of the magnetic field effect on structural characteristics of its surface. Studies of the effect of the magnetic field on the structural characteristics of the surface of the granular thin film alloy Co39Ag61, that characterized by the highest amplitude of GMR at room temperature, were performed. The GMR value for this sample was 14.7 % in transverse and 13.6 % in longitudinal measurement geometries under the magnetic field B-max = 1.5 T. The application of the magnetic field led to a decrease in arithmetic mean R-a and the root mean square R-q values of the surface roughness, as well as the structural entropy of the system. At the first application of the magnetic field, the greatest decrease in the roughness of R-a by 19 % and R-q by 16 %, respectively, was observed. These changes persisted with increasing field strength up to B = 0.1 T. During the relaxation process (18 hours after the field was switched off), the structural characteristics of the sample were permanent.