• Xu, Chencheng
• Heinen, Ronja Anika
• Dittmann, Regina
• Gunkel, Felix
• Raab, Nicolas
• Koehl, Annemarie
• Bäumer, Christoph

Abstract

<p>Emerging electrical and magnetic properties of oxide interfaces are often dominated by the termination and stoichiometry of substrates and thin films, which depend critically on the growth conditions. Currently, these quantities have to be measured separately with different sophisticated techniques. This report will demonstrate that the analysis of angle dependent X-ray photoelectron intensity ratios provides a unique tool to determine both termination and stoichiometry simultaneously in a straightforward experiment. Fitting the experimental angle dependence with a simple analytical model directly yields both values. The model is calibrated through the determination of the termination of SrTiO₃ single crystals after systematic pulsed laser deposition of sub-monolayer thin films of SrO. We then use the model to demonstrate that during homoepitaxial SrTiO₃ growth, excess Sr cations are consumed in a self-organized surface termination conversion before cation defects are incorporated into the film. We show that this termination conversion results in insulating properties of interfaces between polar perovskites and SrTiO₃ thin films. These insights about oxide thin film growth can be utilized for interface engineering of oxide heterostructures. In particular, they suggest a recipe for obtaining two-dimensional electron gases at thin film interfaces: SrTiO₃ should be deposited slightly Ti-rich to conserve the TiO₂-termination.</p>

Topics

• perovskite
• impedance spectroscopy
• surface
• single crystal
• experiment
• thin film
• x-ray photoelectron spectroscopy
• defect
• two-dimensional
• pulsed laser deposition