¹¹¹Cd(←¹¹¹In) Time Differential Perturbed Angular Correlation (TDPAC) Spectroscopy in Fe/Ag Films

Abstract

We have investigated the magnetic properties of Cd atoms decayed from ¹¹¹In at the interfaces of Fe/Ag evaporated films. In order to determine the magnetic properties of the films, we have measured ¹¹¹Cd(←¹¹¹In) time differential perturbed angular correlation (TDPAC) spectra at room temperature as a function of distance from the interface. Fe and Ag were evaporated using electron beam evaporation, and small amounts of radioactive ¹¹¹In were evaporated by resistance-heating. The evaporated films had the following stacking orders on kapton polyimide film substrate: (1) polyimide/Fe 50 nm/¹¹¹In/Fe x nm/Ag 20 nm (x=0.2,0.3,1,3,5,10), (2) polyimide/Fe 50 nm/Ag x nm/¹¹¹In/Ag 20 nm (x=0,0.2,1). We used an Ag layer as a cap layer in order to prevent oxidation in air. TDPAC spectra were measured using a four-detector arrangement. The hyperfine magnetic field tends to be slightly larger when ¹¹¹In is close to the interface of the Fe/Ag layer. The intensity of perturbation damps rapidly as ¹¹¹In is close to the interface of Fe and Ag. These behaviors are thought to depend on electric field gradients and the influence of the surface roughness.