Silicon photonic integrated circuit for on-chip spectroscopic gas sensing

Chi Xiong; Yves Martin; Eric J. Zhang; Jason S. Orcutt; Martin Glodde; Laurent Schares; Tymon Barwicz; Chu C. Teng; Gerard Wysocki; William M. J. Green

doi:10.1117/12.2511793

Publication

SPIE OPTO 2019

Conference paper

Silicon photonic integrated circuit for on-chip spectroscopic gas sensing

SPIE OPTO 2019

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Abstract

We present a chip-scale spectroscopic methane sensor, incorporating a tunable laser, sensor waveguides, and methane reference cell, assembled as a compact silicon photonic integrated circuit. The sensor incorporates an InP-based semiconductor optical amplifier/photodetector array, flip-chip soldered onto a silicon photonic substrate using highprecision waveguide-to-waveguide interfaces. The InP chip provides gain for a hybrid external cavity laser operating at 1650 nm. The sensor features a 20-cm-long TM-mode evanescent-field waveguide as the sensing element and is compatible with high-volume wafer-scale silicon photonics manufacturing and assembly processes. This sensor can be an enabling platform for economical methane and more general distributed environmental trace-gas monitoring.

Date

04 Feb 2019

Publication

SPIE OPTO 2019

Authors

IBM-affiliated at time of publication

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