Potassium-Tantalate-Niobate Mixed Crystal Thin Films for Applications in Nonlinear Integrated Optics

Yuechen Jia; Jan Szabados; Markus Winkler; Ingo Breunig; Ingo Breunig; Volker Cimalla; Lutz Kirste; Agnė Žukauskaitė; Karsten Buse; Karsten Buse

2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference
(Optica Publishing Group, 2017),
paper CE_8_2

Potassium-Tantalate-Niobate Mixed Crystal Thin Films for Applications in Nonlinear Integrated Optics

Yuechen Jia, Jan Szabados, Markus Winkler, Ingo Breunig, Volker Cimalla, Lutz Kirste, Agnė Žukauskaitė, and Karsten Buse

The European Conference on Lasers and Electro-Optics 2017

Munich Germany
25–29 June 2017
ISBN: 978-1-5090-6736-7

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Nonlinear Optics (CE_8)

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Y. Jia, J. Szabados, M. Winkler, I. Breunig, V. Cimalla, L. Kirste, A. Žukauskaitė, and K. Buse, "Potassium-Tantalate-Niobate Mixed Crystal Thin Films for Applications in Nonlinear Integrated Optics," in 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference, (Optica Publishing Group, 2017), paper CE_8_2.

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Abstract

Perovskite potassium tantalate-niobate mixed crystals (KTa_1−xNb_xO₃ with 0 ≤ x ≤1, KTN) undergo a phase transition from a paraelectric cubic to a ferroelectric tetragonal structure with decreasing temperature [1]. By adjusting the Ta/Nb content one can tune the phase-transition temperature of KTN and thus also its main properties at a given temperature. For example, the phase transition occurs around room temperature for x = 0.4, accompanied by changes in the dielectric and electro-optic (EO) properties [2]. This extremely promising material is of great interest because of its large EO effect and excellent nonlinear optical performance [2,3]. However, due to the fact that the crystals grown have compositions being different from those of the molten ingredients, high-quality and homogeneous single-crystalline KTN is difficult to produce, which is limiting the application of this material [4,5].

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