Dual Laser Indium Phosphide Photonic Integrated Circuits for Remote Active Carbon Dioxide Sensing

Fengqiao Sang; Victoria Rosborough; Joseph Fridlander; Fabrizio Gambini; Fabrizio Gambini; Simone Šuran Brunelli; Jeffrey R. Chen; Stephan R. Kawa; Kenji Numata; Mark Stephen; Larry Coldren; Jonathan Klamkin

doi:10.1364/OFC.2022.Tu2E.3

Optical Fiber Communication Conference (OFC) 2022
Technical Digest Series (Optica Publishing Group, 2022),
paper Tu2E.3
•https://doi.org/10.1364/OFC.2022.Tu2E.3

Dual Laser Indium Phosphide Photonic Integrated Circuits for Remote Active Carbon Dioxide Sensing

Fengqiao Sang, Victoria Rosborough, Joseph Fridlander, Fabrizio Gambini, Simone Šuran Brunelli, Jeffrey R. Chen, Stephan R. Kawa, Kenji Numata, Mark Stephen, Larry Coldren, and Jonathan Klamkin

Optical Fiber Communication Conference 2022

San Diego, California United States
6–10 March 2022
ISBN: 978-1-55752-466-9

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Comb and Multi-wavelength Sources (Tu2E)

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F. Sang, V. Rosborough, J. Fridlander, F. Gambini, S. Š. Brunelli, J. R. Chen, S. R. Kawa, K. Numata, M. Stephen, L. Coldren, and J. Klamkin, "Dual Laser Indium Phosphide Photonic Integrated Circuits for Remote Active Carbon Dioxide Sensing," in Optical Fiber Communication Conference (OFC) 2022, S. Matsuo, D. Plant, J. Shan Wey, C. Fludger, R. Ryf, and D. Simeonidou, eds., Technical Digest Series (Optica Publishing Group, 2022), paper Tu2E.3.

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Abstract

Two generations of indium phosphide photonic integrated circuits were fabricated, characterized, and their performance compared. Successful sampling of carbon dioxide was performed in a laboratory setting under continuous wave sampling.

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