Thermodynamic point defect model of barium titanate and application to the photorefractive effect

Abstract

We present a model that provides a means for understanding the effects of crystal growth and processing conditions on the photorefractive properties of BaTiO₃. The densities of photorefractive centers are calculated from a thermodynamic point defect model. This model allows for the existence of transition-metal dopants in multiple valence states and for the incorporation of more than one species with levels in the band gap. Beam-coupling gain and response time are calculated as a function of temperature and oxygen partial pressure of treatment for various dopant types and concentrations. The predicted behavior is compared with existing experimental data on BaTiO₃ crystals, and implications for improving the photorefractive performance are discussed.