Epitaxial (Pb,La)(Zr,Ti)O3 thin films on buffered Si(100) by on-axis radio frequency magnetron sputtering

In this study, we discuss the case for integration of epitaxial (Pb,La)(Zr,Ti)O₃ (PLZT) thin films with silicon for electro-optic device applications. PLZT films, approximately 500 nm thick, were grown by on-axis radio frequency magnetron sputtering on CeO₂/YSZ-buffered Si(100) substrate with a SrRuO₃ electrode layer embedded between CeO₂ and PLZT. The structural properties and surface topography of the different oxide layers were examined with X-ray diffraction analysis and atomic force microscopy. The perovskite thin films were predominantly (001)-oriented, with a (002) rocking curve halfwidth of approximately 0.3° and a surface roughness compatible with requirements for application in optical devices. The PLZT cation stoichiometry was assessed from quantitative X-ray photoelectron spectroscopy. These measurements uncovered a substantial depletion of lead in the film surface for layers deposited at substrate temperatures above ~ 600 °C, whereas the surface concentration of La, Zr and Ti remained virtually unaffected over a wide range of growth temperatures.