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http://dx.doi.org/10.4191/KCERS.2005.42.11.749

Congruent LiNbO3 Crystal Periodically Poled by Applying External Field  

Kwon, Soon-Woo (Department of Materials Engineering, Hankuk Aviation University)
Yang, Woo-Seok (Nano Bio-Photonics Team, Korea Electronics Technology Institute)
Lee, Hyung-Man (Nano Bio-Photonics Team, Korea Electronics Technology Institute)
Kim, Woo-Kyung (Nano Bio-Photonics Team, Korea Electronics Technology Institute)
Lee, Han-Young (Nano Bio-Photonics Team, Korea Electronics Technology Institute)
Yoon, Dae-Ho (Department of Advanced Materials Engineering, Sungkyunkwan University)
Song, Yo-Seung (Department of Materials Engineering, Hankuk Aviation University)
Publication Information
Journal of the Korean Ceramic Society / v.42, no.11, 2005 , pp. 749-752 More about this Journal
Abstract
When an electric field higher than a characteristic coercive field is applied to a ferroelectric such as $LiNbO_3$, the orientation of the spontaneous polarization is reversed, which causes the reversal of the sign of odd-rank tensor properties such as electro-optic and nonlinear optic coefficients. A fabrication process of insulator and periodic external field assisted poling of a z-cut $LiNbO_3$ have been optimized for a periodic $180^{\circ}$ phase inversion along z-axis. The poling jig and the poling control system, fully controlled by a computer, for high quality and reproducible PPLN fabrication have been devised. Periodically polarization reversed PPLN was adjusted based on the fabricated thickness of insulator. The poling structure of PPLN was observed under a microscope after etching PPLN samples by an etching solution ($HF:HNO_3$ = 1 : 2) for about 15 min.
Keywords
PPLN; Etching solution; Duty cycle; Nonlinear optic;
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