Calibrating ground-based microwave radiometers: Uncertainty and drifts

Küchler, N.; Turner, D. D.; Löhnert, U.; Crewell, S.

doi:10.1002/2015RS005826

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The NOAA IR serves as an archival repository of NOAA-published products including scientific findings, journal articles, guidelines, recommendations, or other information authored or co-authored by NOAA or funded partners. As a repository, the NOAA IR retains documents in their original published format to ensure public access to scientific information.

i

Calibrating ground-based microwave radiometers: Uncertainty and drifts

2016
By Küchler, N. ; Turner, D. D. ; Löhnert, U. ; ...
Source: Radio Sci., 51, 311– 327

[PDF-1.58 MB]

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Journal Title:

Radio Science
Personal Author:

Küchler, N. ; Turner, D. D. ; Löhnert, U. ; Crewell, S.

Küchler, N. ; Turner, D. D. ; Löhnert, U. ; Crewell, S. Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; NSSL (National Severe Storms Laboratory)

OAR (Oceanic and Atmospheric Research) ; NSSL (National Severe Storms Laboratory) Less -
Description:

The quality of microwave radiometer (MWR) calibrations, including both the absolute radiometric accuracy and the spectral consistency, determines the accuracy of geophysical retrievals. The Microwave Radiometer Calibration Experiment (MiRaCalE) was conducted to evaluate the performance of MWR calibration techniques, especially of the so-called Tipping Curve Calibrations (TCC) and Liquid Nitrogen Calibrations (LN2cal), by repeatedly calibrating a fourth-generation Humidity and Temperature Profiler (HATPRO-G4) that measures downwelling radiance between 20 GHz and 60 GHz. MiRaCalE revealed two major points to improve MWR calibrations: (i) the necessary repetition frequency for MWR calibration techniques to correct drifts, which ensures stable long-term measurements; and (ii) the spectral consistency of control measurements of a well known reference is useful to estimate calibration accuracy. Besides, we determined the accuracy of the HATPRO's liquid nitrogen-cooled blackbody's temperature. TCCs and LN2cals were found to agree within 0.5 K when observing the liquid nitrogen-cooled blackbody with a physical temperature of 77 K. This agreement of two different calibration techniques suggests that the brightness temperature of the LN2 cooled blackbody is accurate within at least 0.5 K, which is a significant reduction of the uncertainties that have been assumed to vary between 0.6 K and 1.5 K when calibrating the HATPRO-G4. The error propagation of both techniques was found to behave almost linearly, leading to maximum uncertainties of 0.7 K when observing a scene that is associated with a brightness temperature of 15 K.
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Calibration Accuracy Liquid Nitrogen Microwave Radiometer Remote Sensing Tipping Curve Calibration Water Vapor
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Radio Sci., 51, 311– 327
DOI:

https://doi.org/10.1002/2015RS005826
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Journal Article
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urn:sha256:16af4ac2d1ad3be927fc0e7b5970abb338a132d7311dbb809e05821fe6eb8cfe
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https://repository.library.noaa.gov/view/noaa/32186/noaa_32186_DS1.pdf
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Calibrating ground-based microwave radiometers: Uncertainty and drifts

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