Index contrast tunability of LiNbO$_3$ waveguides obtained by thermal treatment

TL;DR

This paper introduces a thermal treatment method to precisely tune the index contrast of LiNbO$_3$ waveguides, enabling customizable optical properties for advanced photonics applications.

Contribution

It presents a simple, reliable annealing process to control index contrast in LiNbO$_3$ waveguides, expanding tunability range and improving device customization.

Findings

Index contrast tunability from 0.035 to 0.1 achieved

Index profile fits exponential function after annealing

Index contrast depends exponentially on annealing time

Abstract

The actual techniques allowing the fabrication of waveguides in lithium niobate are not able to satisfy one of the demands of modern integrated photonics namely well-controlled tunability of index contrast over a large range of values from high-index contrast to low index contrast. This paper presents a simple and reliable method allowing well-controlled index contrast tunability while benefiting from optical nonlinearity of LiNbO$_3$ waveguides fabricated using HiVac-VPE technique. The study involves LiNbO$_3$ planar waveguides subjected to an annealing process for 1 to 5.5 hours. The waveguides are characterized before and after the thermal treatment, in order to determine the index contrast and to analyze the changes of index profile shapes. Furthermore, it is found that the index profile after annealing is fitted by an exponential function different from Gaussian fit found in APE technique. Additionally, index contrast dependence of the annealing time is also fitted by an exponential function. Our findings allow for well-controlled index contrast tunability, between high-index contrast ($\Delta n_e=0.1$) and low-index contrast ($\Delta n_e=0.035$), of LiNbO$_3$ waveguides offering the opportunity for customization and enhancement of non-linear optical devices and photonics applications.