Non- Topographic Space-Based Laser Remote Sensing

Anthony W. Yu; James B. Abshire; Haris Riris; Michael Purucker; Diego Janches; Stephanie Getty; Michael A. Krainak; Mark A. Stephen; Jeffrey R. Chen; Steve X. Li; Kenji Numata; Molly E. Fahey; Stewart Wu; Graham R. Allan; Oleg Konoplev

doi:10.1364/CLEO_AT.2016.AM4K.2

Conference on Lasers and Electro-Optics
OSA Technical Digest (online) (Optica Publishing Group, 2016),
paper AM4K.2
•https://doi.org/10.1364/CLEO_AT.2016.AM4K.2

Non- Topographic Space-Based Laser Remote Sensing

Anthony W. Yu, James B. Abshire, Haris Riris, Michael Purucker, Diego Janches, Stephanie Getty, Michael A. Krainak, Mark A. Stephen, Jeffrey R. Chen, Steve X. Li, Kenji Numata, Molly E. Fahey, Stewart Wu, Graham R. Allan, and Oleg Konoplev

CLEO: Applications and Technology 2016

San Jose, California United States
5–10 June 2016
ISBN: 978-1-943580-11-8

From the session
A&T Topical Review on Advances in Laser-based Remote Sensing II (AM4K)

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A. W. Yu, J. B. Abshire, H. Riris, M. Purucker, D. Janches, S. Getty, M. A. Krainak, M. A. Stephen, J. R. Chen, S. X. Li, K. Numata, M. E. Fahey, S. Wu, G. R. Allan, and O. Konoplev, "Non- Topographic Space-Based Laser Remote Sensing," in Conference on Lasers and Electro-Optics, OSA Technical Digest (online) (Optica Publishing Group, 2016), paper AM4K.2.

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Abstract

The advent of several key enabling electro-optics technologies afford advanced, non-topographic remote sensing instruments for space. We will present progress on several new, space-based laser instruments that are being developed at NASA GSFC.

In the past 20+ years, NASA Goddard Space Flight Center (GSFC) has successfully developed and flown lidars for mapping of Mars, the Earth, Mercury and the Moon. As laser and electro-optics technologies expand and mature, more sophisticated instruments that once were thought to be too complicated for space are being considered and developed. We will present progress on several new, space-based laser instruments that are being developed at GSFC. These include lidars for remote sensing of carbon dioxide and methane on Earth for carbon cycle and global climate change; sodium resonance fluorescence lidar to measure environmental parameters of the middle and upper atmosphere on Earth and Mars and a wind lidar for Mars orbit; in situ laser instruments include remote and in-situ measurements of the magnetic fields; and a time-of-flight mass spectrometer to study the diversity and structure of nonvolatile organics in solid samples on missions to outer planetary satellites and small bodies.

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