Velocity Saturation in La-doped BaSnO3 Thin Films

Abstract

BaSnO3, a high mobility perovskite oxide, is an attractive material for oxide-based electronic devices. However, in addition to low-field mobility, high-field transport properties such as the saturation velocity of carriers play a major role in determining device performance. We report on the experimental measurement of electron saturation velocity in La-doped BaSnO3 thin films for a range of doping densities. Predicted saturation velocities based on a simple LO-phonon emission model using an effective LO phonon energy of 120 meV show good agreement with measurements of velocity saturation in La-doped BaSnO3 films.. Density-dependent saturation velocity in the range of 1.6x107 cm/s reducing to 2x106 cm/s is predicted for δ-doped BaSnO3 channels with carrier densities ranging from 1013 cm-2 to 2x1014 cm-2 respectively. These results are expected to aid the informed design of BaSnO3 as the active material for high-charge density electronic transistors.