Multiferroic domain dynamics in strained strontium titanate
Physical review letters, 2006•APS
Multiferroicity can be induced in strontium titanate by applying biaxial strain. Using optical
second harmonic generation, we report a transition from 4/mmm to the ferroelectric mm 2
phase, followed by a transition to a ferroelastic-ferroelectric mm 2 phase in a strontium
titanate thin film. Piezoelectric force microscopy is used to study ferroelectric domain
switching. Second harmonic generation, combined with phase-field modeling, is used to
reveal the mechanism of coupled ferroelectric-ferroelastic domain wall motion. These …
second harmonic generation, we report a transition from 4/mmm to the ferroelectric mm 2
phase, followed by a transition to a ferroelastic-ferroelectric mm 2 phase in a strontium
titanate thin film. Piezoelectric force microscopy is used to study ferroelectric domain
switching. Second harmonic generation, combined with phase-field modeling, is used to
reveal the mechanism of coupled ferroelectric-ferroelastic domain wall motion. These …
Multiferroicity can be induced in strontium titanate by applying biaxial strain. Using optical second harmonic generation, we report a transition from to the ferroelectric phase, followed by a transition to a ferroelastic-ferroelectric phase in a strontium titanate thin film. Piezoelectric force microscopy is used to study ferroelectric domain switching. Second harmonic generation, combined with phase-field modeling, is used to reveal the mechanism of coupled ferroelectric-ferroelastic domain wall motion. These studies have relevance to multiferroics with coupled polar and axial phenomena.
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