Hybrid Barium Titanate Waveguide Designs For Efficient Nonlinear Frequency Conversion

Trevor G. Vrckovnik; D. Arslan; F. Eilenberger; Sebastian W. Schmitt

arXiv:2601.21427·physics.optics·January 30, 2026

Hybrid Barium Titanate Waveguide Designs For Efficient Nonlinear Frequency Conversion

Trevor G. Vrckovnik, D. Arslan, F. Eilenberger, Sebastian W. Schmitt

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TL;DR

This paper presents a new hybrid waveguide design combining BaTiO$_3$ and TiO$_2$ to significantly improve nonlinear frequency conversion efficiency, overcoming fabrication challenges of traditional poling techniques.

Contribution

Introduction of a scalable hybrid waveguide approach using TiO$_2$ integration in BaTiO$_3$ for enhanced nonlinear mode overlap and phase-matching without complex poling.

Findings

01

Achieved 2.75x increase in second harmonic generation efficiency

02

Demonstrated a fabrication-robust, scalable waveguide design

03

Positioned hybrid waveguides as practical for integrated quantum photonics

Abstract

Barium titanate (BaTiO $_{3}$ ) is emerging as a powerful integrated photonic material, combining strong $X^{(2)}$ and electro-optic nonlinearities with rapidly improving thin-film waveguide quality. Recent demonstrations of low-loss BaTiO $_{3}$ waveguides and high-Q resonators have established BaTiO $_{3}$ -on-insulator as a promising platform for next-generation frequency-conversion and quantum photonic technologies. However, while BaTiO $_{3}$ electro-optic modulators are now well developed, nonlinear BaTiO $_{3}$ waveguide engineering remains comparatively immature. Techniques widely used in lithium niobate, such as periodic poling for quasi-phase-matching, are poorly suited to BaTiO $_{3}$ because epitaxial thin films exhibit high coercive fields, strong strain-clamping effects, multivariant domain structures, and slow, complex switching dynamics. These factors make accurate periodic poling…

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Taxonomy

TopicsPhotorefractive and Nonlinear Optics · Photonic and Optical Devices · Nonlinear Photonic Systems