Portable Tunable Laser Spectrometer (PTLS) for Human Exploration: Update on Lasers and Mesh Networking

Abstract

We report on the development of a wireless network of sensors that measure spatial and temporal distributions of carbon dioxide, oxygen, and water vapor in human habitable vehicles for NASA exploration needs. Each sensor is a hand-held, portable tunable laser spectrometer (PTLS). Toward this goal, we report on realization of first-ever, high-reliability mid-infrared tunable diode lasers emitting at 2683 nm for measurement of carbon dioxide and water vapor. These lasers are a critical component of PTLS. We describe the development, verification, and validation of these lasers which demonstrate achievement of requisite reliability and traceability needed for critical applications. We also describe advancement of wireless network system software enabling individual PTLS sensors to be incorporated into a network distributed throughout a human habitation vehicle like ISS for monitoring trace gases oxygen, carbon dioxide, and water vapor.

Description

Lance Christensen, Jet Propulsion Laboratory, California Insititute of Technology, USA
Kamjou Mansour, Jet Propulsion Laboratory, California Insititute of Technology, USA
Alexander Hart, Northern Illinois University, USA
Benedito Fonseca, Northern Illinois University, USA
Yuebin Ning, Norcada Inc., Canada
Simon Wingar, National Research Council of Canada, Canada
Nakeeran Ponnampalam, Norcada Inc., Canada
Tran Tran, Norcada Inc., Canada
Rachel Rae, Norcada Inc., Canada
Graham McKinnon, Norcada Inc., Canada
James Gupta, University of Ottawa, Canada
Ghasem Razavipour, National Research Council of Canada, Canada
Weihong Jiang, National Research Council of Canada, Canada
Pedro Barrios, National Research Council of Canada, Canada
ICES205: Advanced Life Support Sensor and Control Technology
The 52nd International Conference on Environmental Systems was held in Calgary, Canada, on 16 July 2023 through 20 July 2023.

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Keywords

tunable laser spectroscopy, diode laser, sensing network, carbon dioxide

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