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2022 CEOS international thermal infrared radiometer comparison. Part I: laboratory comparison of radiometers and blackbodies

2022 CEOS international thermal infrared radiometer comparison. Part I: laboratory comparison of radiometers and blackbodies
2022 CEOS international thermal infrared radiometer comparison. Part I: laboratory comparison of radiometers and blackbodies
An international comparison of field deployed radiometers for sea surface skin temperature (SSTskin) retrieval was conducted in June 2022. The campaign comprised a laboratory comparison and a field comparison. In the laboratory part, the radiometers were compared with reference standard blackbodies, while the same was done with the blackbodies used for the calibration of the radiometers against a transfer standard radiometer. Reference values were provided by the National Physical Laboratory (NPL), traceable to the primary standard on the International Temperature Scale of 1990. This was followed by the field comparison at a seaside pier on the south coast of England, where the radiometers were compared against each other while viewing the closely adjacent surface of the sea. This paper reports the results of the laboratory comparison of radiometers and blackbodies. For the blackbody comparison, the brightness temperature of the blackbody reported by the participants agreed with the reference value measured by the NPL transfer standard radiometer within the uncertainties for all temperatures and for all blackbodies. For the radiometer comparison, the temperature range of most interest from the SSTskin retrieval point of view is 10°–30°C, and in this temperature range, and up to the maximum comparison temperature of 50°C, all participants’ reported results were in agreement with the reference. On the other hand, below 0°C the reported values showed divergence from the reference and the differences exceeded the uncertainties. The divergence shows there is room for improvement in uncertainty estimation at lower temperatures, although it will have limited implication in the SSTskin retrieval.
Infrared radiation, Instrumentation/sensors, Measurements, Ocean, Remote sensing, Sea surface temperature
0739-0572
295-307
Yamada, Yoshiro
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Harris, Subrena
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Hayes, Michael
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Simpson, Rob
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Wimmer, Werenfrid
acde68dd-4cb5-4fa6-805c-6286d5d93578
Holmes, Raymond
7b025da7-d4f8-4775-aecf-14d9346c592e
Nightingale, Tim
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Lee, Arrow
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Jepsen, Nis
a988efe9-0193-42e7-bdc3-50d639205c10
Morgan, Nicole
eb24c21a-4d93-4350-b623-3170d283d88b
Göttsche, Frank-M.
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Niclòs, Raquel
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Perelló, Martín
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Donlon, Craig
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Fox, Nigel
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et al.
Yamada, Yoshiro
0b44bc1b-0a87-44ab-8c5f-4a290c63dca2
Harris, Subrena
3d17cff0-d7ab-4799-bcbe-5cc4f294bd88
Hayes, Michael
c834f7be-a0e2-478f-b905-86ff04b1de8d
Simpson, Rob
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Wimmer, Werenfrid
acde68dd-4cb5-4fa6-805c-6286d5d93578
Holmes, Raymond
7b025da7-d4f8-4775-aecf-14d9346c592e
Nightingale, Tim
39c7da16-fb9f-4163-9fd5-dea57a4d064c
Lee, Arrow
227f12bd-e469-40ff-bbc4-aeba8f2dc548
Jepsen, Nis
a988efe9-0193-42e7-bdc3-50d639205c10
Morgan, Nicole
eb24c21a-4d93-4350-b623-3170d283d88b
Göttsche, Frank-M.
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Niclòs, Raquel
31b0b400-c702-4ff8-9671-b157cf78dc1b
Perelló, Martín
d4bfa0c5-d2df-4d16-a07c-a6b78029025e
Donlon, Craig
2196bb9f-3534-4143-85c7-882a084e8a18
Fox, Nigel
0edeb8fa-fadb-48ce-b39d-d7e414a0cfe0

Yamada, Yoshiro, Harris, Subrena and Hayes, Michael , et al. (2024) 2022 CEOS international thermal infrared radiometer comparison. Part I: laboratory comparison of radiometers and blackbodies. Journal of Atmospheric and Oceanic Technology, 41 (3), 295-307. (doi:10.1175/JTECH-D-23-0059.1).

Record type: Article

Abstract

An international comparison of field deployed radiometers for sea surface skin temperature (SSTskin) retrieval was conducted in June 2022. The campaign comprised a laboratory comparison and a field comparison. In the laboratory part, the radiometers were compared with reference standard blackbodies, while the same was done with the blackbodies used for the calibration of the radiometers against a transfer standard radiometer. Reference values were provided by the National Physical Laboratory (NPL), traceable to the primary standard on the International Temperature Scale of 1990. This was followed by the field comparison at a seaside pier on the south coast of England, where the radiometers were compared against each other while viewing the closely adjacent surface of the sea. This paper reports the results of the laboratory comparison of radiometers and blackbodies. For the blackbody comparison, the brightness temperature of the blackbody reported by the participants agreed with the reference value measured by the NPL transfer standard radiometer within the uncertainties for all temperatures and for all blackbodies. For the radiometer comparison, the temperature range of most interest from the SSTskin retrieval point of view is 10°–30°C, and in this temperature range, and up to the maximum comparison temperature of 50°C, all participants’ reported results were in agreement with the reference. On the other hand, below 0°C the reported values showed divergence from the reference and the differences exceeded the uncertainties. The divergence shows there is room for improvement in uncertainty estimation at lower temperatures, although it will have limited implication in the SSTskin retrieval.

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More information

Published date: 1 March 2024
Additional Information: Publisher Copyright: © 2024 American Meteorological Society.
Keywords: Infrared radiation, Instrumentation/sensors, Measurements, Ocean, Remote sensing, Sea surface temperature
Learn more about Ocean and Earth Science research Learn more about Ocean and Earth Science research

Identifiers

Local EPrints ID: 489867
URI: http://eprints.soton.ac.uk/id/eprint/489867
DOI: doi:10.1175/JTECH-D-23-0059.1
ISSN: 0739-0572
PURE UUID: a19701d5-cea9-4b04-8815-75ca062b62fb

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Date deposited: 07 May 2024 16:30
Last modified: 28 May 2024 16:36

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Contributors

Author: Yoshiro Yamada
Author: Subrena Harris
Author: Michael Hayes
Author: Rob Simpson
Author: Werenfrid Wimmer
Author: Raymond Holmes
Author: Tim Nightingale
Author: Arrow Lee
Author: Nis Jepsen
Author: Nicole Morgan
Author: Frank-M. Göttsche
Author: Raquel Niclòs
Author: Martín Perelló
Author: Craig Donlon
Author: Nigel Fox
Corporate Author: et al.

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