# Velocity Saturation in La-doped BaSnO3 Thin Films

**Authors:** Hareesh Chandrasekar, Junao Cheng, Tianshi Wang, Zhanbo Xia, Nicholas, G. Combs, Christopher R. Freeze, Patrick B. Marshall, Joe McGlone, Aaron, Arehart, Steven Ringel, Anderson Janotti, Susanne Stemmer, Wu Lu and, Siddharth Rajan

arXiv: 1905.05112 · 2019-08-28

## TL;DR

This study measures and models the high-field electron saturation velocity in La-doped BaSnO3 thin films, providing insights crucial for designing high-performance oxide electronic devices.

## Contribution

It experimentally determines the electron saturation velocity in La-doped BaSnO3 and validates a simple LO-phonon emission model for predicting velocity saturation.

## Key findings

- Measured saturation velocities align with model predictions.
- Saturation velocity decreases with increasing doping density.
- Density-dependent saturation velocities range from 1.6x10^7 to 2x10^6 cm/s.

## Abstract

BaSnO_{3}, 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 BaSnO_{3} 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 BaSnO_{3} films.. Density-dependent saturation velocity in the range of 1.6x10^{7} cm/s reducing to 2x10^{6} cm/s is predicted for {\delta}-doped BaSnO3 channels with carrier densities ranging from 10^{13} cm^{-2} to 2x10^{14} cm^{-2} respectively. These results are expected to aid the informed design of BaSnO3 as the active material for high-charge density electronic transistors.

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Source: https://tomesphere.com/paper/1905.05112