Topological Directional Coupler
Abstract
Interferometers and beam splitters are fundamental building blocks for photonic neuromorphic and quantum computing machinery. In waveguide-based photonic integrated circuits, beam-splitting is achieved with directional couplers that rely on transition regions where the waveguides are adiabatically bent to suppress back-reflection. We present a novel, compact approach to introducing guided mode coupling. By leveraging multimodal domain walls between microwave topological photonic crystals, we use the photonic-spin-conservation to suppress back-reflection while relaxing the topological protection of the valley degree of freedom to implement tunable beam splitting. Rapid advancements in chip-scale topological photonics suggest that the proposed simultaneous utilization of multiple topological degrees of freedom could benefit the development of novel photonic computing platforms.
Cite
@article{arxiv.2311.18272,
title = {Topological Directional Coupler},
author = {Yandong Li and Minwoo Jung and Yang Yu and Yuchen Han and Baile Zhang and Gennady Shvets},
journal= {arXiv preprint arXiv:2311.18272},
year = {2024}
}
Comments
This manuscript has been accepted by Laser & Photonics Reviews for publication