M
Michael R. Gunson
Researcher at California Institute of Technology
Publications - 93
Citations - 5601
Michael R. Gunson is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Stratosphere & Tropospheric Emission Spectrometer. The author has an hindex of 39, co-authored 91 publications receiving 4965 citations. Previous affiliations of Michael R. Gunson include Jet Propulsion Laboratory.
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Journal ArticleDOI
An 11-year record of XCO2 estimates derived from GOSAT measurements using the NASA ACOS version 9 retrieval algorithm
Thomas E. Taylor,Christopher W. O'Dell,David Crisp,Akihiko Kuze,Hannakaisa Lindqvist,Paul O. Wennberg,Abhishek Chatterjee,Michael R. Gunson,Annmarie Eldering,Brendan Fisher,Matthäus Kiel,Robert M. Nelson,A. J. Merrelli,Gregory B. Osterman,Frédéric Chevallier,Paul I. Palmer,Lian Feng,Nicholas M. Deutscher,Manvendra K. Dubey,Dietrich G. Feist,Omaira García,David J. Griffiths,Frank Hase,Laura T. Iraci,Rigel Kivi,Cheng Liu,M. De Mazière,Isamu Morino,Justus Notholt,Young-Suk Oh,Hirofumi Ohyama,David F. Pollard,Markus Rettinger,Matthias Schneider,Coleen M. Roehl,Mahesh Kumar Sha,Kei Shiomi,Kimberly Strong,Ralf Sussmann,Yao Té,Voltaire A. Velazco,Mihalis Vrekoussis,Thorsten Warneke,Debra Wunch +43 more
TL;DR: O'Dell et al. as discussed by the authors used the version 9 (v9) Atmospheric Carbon Observations from Space (ACOS) Level 2 Full Physics (L2FP) retrieval algorithm to derive estimates of carbon dioxide dry air mole fraction (XCO2) from the TANSO-FTS measurements collected over its first 11 years of operation.
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Stratospheric CO at tropical and mid-latitudes: ATMOS measurements and photochemical steady-state model calculations
Curtis P. Rinsland,Ross J. Salawitch,Gregory B. Osterman,Fredrick W. Irion,Bhaswar Sen,Rodolphe Zander,Emmanuel Mahieu,Michael R. Gunson +7 more
TL;DR: In this article, the authors characterize the spring and fall stratospheric distribution of CO at 49°N-55°S latitude from ATMOS profiles measured during 4 shuttle flights, showing that CO mixing ratios at the tropical tropopause are a factor of 10 higher than values calculated with a steady-state model using standard photochemistry constrained by correlative temperatures and pressures, and ATMOS measurements including CH 4 as inputs.
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Sharing Satellite Observations with the Climate-Modeling Community: Software and Architecture
Daniel J. Crichton,Chris A. Mattmann,L. Cinquini,Amy Braverman,Duane E. Waliser,Michael R. Gunson,Andrew F. Hart,C. E. Goodale,P. Lean,Jinwon Kim +9 more
TL;DR: The authors' focus is on the description of software tools and services that meet these stringent challenges, and on informing the broader communities of climate modelers, remote sensing experts, and software engineers on the lessons learned from their experience so that future systems can benefit and improve upon their existing results.
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Vertical profiles of aerosol volume from high spectral resolution infrared transmission measurements: Results
Annmarie Eldering,Annmarie Eldering,Brian H. Kahn,Franklin P. Mills,Franklin P. Mills,Fredrick W. Irion,Helen M. Steele,Helen M. Steele,Michael R. Gunson +8 more
TL;DR: In this paper, high-resolution infrared absorption spectra of the Atmospheric Trace Molecule Spectroscopy (ATMOS) experiment are utilized to derive vertical profiles of sulfate aerosol volume density and extinction coefficient.
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Post hoc Uncertainty Quantification for Remote Sensing Observing Systems
TL;DR: This article sets forth a practical methodology for uncertainty quantification of physical state estimates derived from remote sensing observing systems.