Dual-Drive Directional Couplers for Programmable Integrated Photonics
Daniel Perez Lopez, Ana M. Gutierrez, Erica Sanchez, Prometheus, Dasmahapatra, and Jose Capmany

TL;DR
This paper introduces a thermally-actuated dual-drive directional coupler in silicon nitride, enabling reconfigurable optical beam splitting and phase control for integrated photonics, demonstrated through experimental integration in waveguide mesh arrangements.
Contribution
It presents the first experimental implementation of a thermally-actuated DD-DC in silicon nitride and its integration into complex waveguide mesh configurations.
Findings
Successful demonstration of a thermally-actuated DD-DC in silicon nitride
First integration of a triangular waveguide mesh with DD-DC
Analysis of performance and scalability of the integrated system
Abstract
A novel class of photonic integrated circuits employs large-scale integration of combined beam splitters and waveguides loaded with phase actuators to provide complex linear processing functionalities that can be reconfigured dynamically. Here, we propose and experimentally demonstrate a thermally-actuated Dual-Drive Directional Coupler (DD-DC) design, integrated in a silicon nitride platform, functioning both as a standalone optical component providing arbitrary optical beam splitting and common phase as well as for its use in waveguide mesh arrangements. We analyze the experimental demonstration of the first integration of a triangular waveguide mesh arrangement, and the first DD-DC based arrangement along with an extended analysis of its performance and scalability.
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Taxonomy
TopicsPhotonic and Optical Devices · Neural Networks and Reservoir Computing · Optical Network Technologies
