Octahedral tilt independent magnetism in confined GdTiO3 films

Abstract

Polarized neutron reflectometry measurements are presented exploring the evolution of ferrimagnetism in GdTiO3 films as they are confined between SrTiO3 layers of variable thicknesses. As GdTiO3 films approach the thin layer limit and are confined within a substantially thicker SrTiO3 matrix, the TiO6 octahedral tilts endemic to GdTiO3 coherently relax toward the undistorted, cubic phase of SrTiO3. Our measurements reveal that the ferrimagnetic state within the GdTiO3 layers survives as the TiO6 octahedral tilts in the GdTiO3 layers are suppressed. Furthermore, our data suggest that a magnetic dead layer develops within the GdTiO3 layer at each GdTiO3/ SrTiO3 interface. The ferrimagnetic moment inherent to the core GdTiO3 layers is negligibly (in models with dead layers) or only weakly (in models without dead layers) impacted as the octahedral tilt angles are suppressed by more than 50\% and the t2g bandwidth is dramatically renormalized.