Abstract
LaBGeO5 (LBGO) crystals are unique ferroelectric materials for manufacturing highly efficient UV laser sources based on frequency conversion. This is due to their low cut-off wavelength, high nonlinear-optical coefficients, and non-hygroscopicity. Periodical poling requires a deep study of domain kinetics in these crystals. Domain imaging by Cherenkov second harmonic generation microscopy was used to reveal the main processes of domain structure evolution: (1) growth and merging of isolated domains, (2) growth of stripe domains formed on the artificial linear surface defects, and (3) domain shrinkage. In a low field, growth of triangular domains and fast shape recovery after merging were observed, while in a high field, the circular domains grew independently after merging. The revealed essential wall motion anisotropy decreased with the field. The anisotropy led to significant shape transformations during domain shrinkage in low field. The formation of short-lived triangular domains rotated by 180 degrees with respect to the growing isolated domains was observed. The obtained results were explained within the kinetic approach to domain structure evolution based on the analogy between the growth of crystals and ferroelectric domains, taking into account the gradual transition from determined nucleation in low field to the stochastic one in high field.
Highlights
Borate-based nonlinear-optical crystals are the most promising candidates for the fabrication of efficient UV laser light sources based on frequency conversion
A set domain wallwall images obtained duringduring the application of each pulse seriespulse was preprocessed setofof domain images obtained the application of each series was
The obtained results can be explained within the kinetic approach to domain structure evolution based on the analogy between the growth of crystals and ferroelectric domains [36,37,38,39]
Summary
Borate-based nonlinear-optical crystals are the most promising candidates for the fabrication of efficient UV laser light sources based on frequency conversion (second harmonic generation and sum frequency generation). Uniaxial ferroelectric LaBGeO5 (LBGO) single crystals [1,2] are non-hygroscopic and allow realizing walk-off-free quasi-phase-matched frequency conversion, making it possible to use the highest available nonlinear optical coefficient: d33 = 1.3 pm/V [3]. This type of conversion requires the creation of a precise periodical stripe ferroelectric domain structure (domain engineering) [4,5,6]. We conducted the domain wall imaging by Cherenkov SHG microscopy for detailed study of the domain structure evolution in LBGO single crystals under the application of series of short electric field pulses
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