4.6 Article

Interband Cascade Photonic Integrated Circuits on Native III-V Chip

Journal

SENSORS
Volume 21, Issue 2, Pages -

Publisher

MDPI
DOI: 10.3390/s21020599

Keywords

interband cascade laser; photonic integrated circuit; chemical sensing; midwave infrared

Funding

  1. Office of Naval Research

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The article discusses the construction of a midwave infrared photonic integrated circuit (PIC) on a GaSb substrate to combine lasers, detectors, passive waveguides, and other optical elements for chemical detection systems. It explores highly compact architectures, including an edge-emitting laser configuration that optimizes stability and potentially operates with lower drive power. The mature processing techniques could eventually enable mass production of hundreds of individual PICs on the same chip for chemical sensing applications.
We describe how a midwave infrared photonic integrated circuit (PIC) that combines lasers, detectors, passive waveguides, and other optical elements may be constructed on the native GaSb substrate of an interband cascade laser (ICL) structure. The active and passive building blocks may be used, for example, to fabricate an on-chip chemical detection system with a passive sensing waveguide that evanescently couples to an ambient sample gas. A variety of highly compact architectures are described, some of which incorporate both the sensing waveguide and detector into a laser cavity defined by two high-reflectivity cleaved facets. We also describe an edge-emitting laser configuration that optimizes stability by minimizing parasitic feedback from external optical elements, and which can potentially operate with lower drive power than any mid-IR laser now available. While ICL-based PICs processed on GaSb serve to illustrate the various configurations, many of the proposed concepts apply equally to quantum-cascade-laser (QCL)-based PICs processed on InP, and PICs that integrate III-V lasers and detectors on silicon. With mature processing, it should become possible to mass-produce hundreds of individual PICs on the same chip which, when singulated, will realize chemical sensing by an extremely compact and inexpensive package.

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