Photonics (Feb 2022)

Interlayer Slope Waveguide Coupler for Multilayer Chalcogenide Photonics

  • Ye Luo,
  • Chunlei Sun,
  • Hui Ma,
  • Maoliang Wei,
  • Jialing Jian,
  • Chuyu Zhong,
  • Junying Li,
  • Renjie Tang,
  • Zequn Chen,
  • Kathleen A. Richardson,
  • Hongtao Lin,
  • Lan Li

DOI
https://doi.org/10.3390/photonics9020094
Journal volume & issue
Vol. 9, no. 2
p. 94

Abstract

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The interlayer coupler is one of the critical building blocks for optical interconnect based on multilayer photonic integration to realize light coupling between stacked optical waveguides. However, commonly used coupling strategies, such as evanescent field coupling, usually require a close distance, which could cause undesired interlayer crosstalk. This work presents a novel interlayer slope waveguide coupler based on a multilayer chalcogenide glass photonic platform, enabling light to be directly guided from one layer to another with a large interlayer gap (1 µm), a small footprint (6 × 1 × 0.8 µm3), low propagation loss (0.2 dB at 1520 nm), low device processing temperature, and a high bandwidth, similar to that in a straight waveguide. The proposed interlayer slope waveguide coupler could further promote the development of advanced multilayer integration in 3D optical communications systems.

Keywords