Nanoscale domains in strained epitaxial BiFeO3 thin Films on LaSrAlO4 Substrate
arXiv:1101.1343 · doi:10.1063/1.3456729
Abstract
BiFeO3 thin films with various thicknesses were grown epitaxially on (001) LaSrAlO4 single crystal substrates using pulsed laser deposition. High resolution x-ray diffraction measurements revealed that a tetragonal-like phase with c-lattice constant ~4.65 Ã is stabilized by a large misfit strain. Besides, a rhombohedral-like phase with c-lattice constant ~3.99 Ã was also detected at film thickness of ~50 nm and above to relieve large misfit strains. In-plane piezoelectric force microscopy studies showed clear signals and self-assembled nanoscale stripe domain structure for the tetragonal-like regions. These findings suggest a complex picture of nanoscale domain patterns in BiFeO3 thin films subjected to large compressive strains.
14 pages, 4 figures