Synthesis and Characterization of Multifunctional Epitaxial Metal-oxide Films

Transition metal-oxides have attracted great attention due to their versatile properties. Multilayers, and/or artificial superlattices, are especially interesting since these architectures usually exhibit unique physical properties in comparison with single phase thin films. Furthermore, the lattice strains and the coupling in the multilayered systems can strongly affect the films' growth and their physical properties. We have grown and characterized different multilayered metal-oxide thin films using laser molecular beam epitaxy (MBE). Specifically, we have prepared [(BiFeO$_{3})_{n}$/(La$_{0.7}$Sr$_{0.3}$MnO$_{3})_{n}$]$_{m}$ and [(BiFeO$_{3})_{n}$/(BiMnO$_{3})_{n}$]$_{m}$ superlattices and strained BiFeO$_{3}$ (BFO)$_{ 0.5}$: BiMnO$_{3}$ (BMO)$_{ 0.5}$ films. We have systematically investigated the strain states on the magnetic properties of these multilayer films.