Focused-ion-beam induced damage in thin films of complex oxide BiFeO3

An unexpected, strong deterioration of crystal quality is observed in epitaxial perovskite BiFeO3 films in which microscale features have been patterned by focusedion- beam (FIB) milling. Specifically, synchrotron x-ray microdiffraction shows that the damaged region extends to tens of mu m, but does not result in measureable changes to morphology or stoichiometry. Therefore, this change would go undetected with standard laboratory equipment, but can significantly influence local material properties and must be taken into account when using a FIB to manufacture nanostructures. The damage is significantly reduced when a thin metallic layer is present on top of the film during the milling process, clearly indicating that the reduced crystallinity is caused by ion beam induced charging. (C) 2014 Author(s).