Simulated multispectral temperature and atmospheric composition retrievals for the JPL GEO-IR Sounder
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Published:2022-03-10
Issue:5
Volume:15
Page:1251-1267
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ISSN:1867-8548
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Container-title:Atmospheric Measurement Techniques
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language:en
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Short-container-title:Atmos. Meas. Tech.
Author:
Natraj VijayORCID, Luo Ming, Blavier Jean-Francois, Payne Vivienne H., Posselt Derek J., Sander Stanley P., Zeng Zhao-ChengORCID, Neu Jessica L., Tremblay Denis, Wu Longtao, Roman Jacola A., Wu Yen-Hung, Dorsky Leonard I.
Abstract
Abstract. Satellite measurements enable quantification of atmospheric
temperature, humidity, wind fields, and trace gas vertical profiles. The
majority of current instruments operate on polar orbiting satellites and
either in the thermal and mid-wave or in the shortwave infrared spectral
regions. We present a new multispectral instrument concept for improved
measurements from geostationary orbit (GEO) with sensitivity to the boundary
layer. The JPL GEO-IR Sounder, which is an imaging Fourier transform
spectrometer, uses a wide spectral range (1–15.4 µm) encompassing
both reflected solar and thermal emission bands to improve sensitivity to
the lower troposphere and boundary layer. We perform retrieval simulations
for both clean and polluted scenarios that also encompass different
temperature and humidity profiles. The results illustrate the benefits of
combining shortwave and thermal infrared measurements. In particular, the
former adds information in the boundary layer, while the latter helps to
separate near-surface and mid-tropospheric variability. The performance of
the JPL GEO-IR Sounder is similar to or better than currently operational
instruments. The proposed concept is expected to improve weather
forecasting as well as severe storm tracking and forecasting and also benefit local
and global air quality and climate research.
Funder
National Oceanic and Atmospheric Administration Jet Propulsion Laboratory
Publisher
Copernicus GmbH
Subject
Atmospheric Science
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