Fiber-Based Laser Transmitter at 1.57 µm for Remote Sensing of Atmospheric Carbon Dioxide from Satellites

Anthony W. Yu; James B. Abshire; Mark A. Stephen; Jeffrey R. Chen; Stewart Wu; Brayler Gonzalez; Lawrence Han; Kenji Numata; Graham R. Allan; William Hasselbrack; Jeffrey W. Nicholson; Man Yan; Patrick Wisk; Anthony DeSantolo; Brian Mangan; Gabe Puc; Doruk Engin; Brian Mathason; Mark Storm

doi:10.1364/ASSL.2015.ATh1A.1

Advanced Solid State Lasers
OSA Technical Digest (online) (Optica Publishing Group, 2015),
paper ATh1A.1
•https://doi.org/10.1364/ASSL.2015.ATh1A.1

Fiber-Based Laser Transmitter at 1.57 µm for Remote Sensing of Atmospheric Carbon Dioxide from Satellites

Anthony W. Yu, James B. Abshire, Mark A. Stephen, Jeffrey R. Chen, Stewart Wu, Brayler Gonzalez, Lawrence Han, Kenji Numata, Graham R. Allan, William Hasselbrack, Jeffrey W. Nicholson, Man Yan, Patrick Wisk, Anthony DeSantolo, Brian Mangan, Gabe Puc, Doruk Engin, Brian Mathason, and Mark Storm

Advanced Solid State Lasers 2015

Berlin Germany
4–9 October 2015
ISBN: 978-1-943580-02-6

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Sensing, Spectrometry and Waveguiding (ATh1A)

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A. W. Yu, J. B. Abshire, M. A. Stephen, J. R. Chen, S. Wu, B. Gonzalez, L. Han, K. Numata, G. R. Allan, W. Hasselbrack, J. W. Nicholson, M. Yan, P. Wisk, A. DeSantolo, B. Mangan, G. Puc, D. Engin, B. Mathason, and M. Storm, "Fiber-Based Laser Transmitter at 1.57 µm for Remote Sensing of Atmospheric Carbon Dioxide from Satellites," in Advanced Solid State Lasers, OSA Technical Digest (online) (Optica Publishing Group, 2015), paper ATh1A.1.

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Abstract

We review progress in developing laser technology and improving the technical readiness of a fiber-based laser transmitter operating at 1.57 µm for use in lidar remote sensing of atmospheric carbon dioxide (CO₂) from satellites

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