DocumentCode
1131308
Title
Comparison of Ground-Based Millimeter-Wave Observations and Simulations in the Arctic Winter
Author
Cimini, Domenico ; Nasir, Francesco ; Westwater, Ed R. ; Payne, Vivienne H. ; Turner, David D. ; Mlawer, Eli J. ; Exner, Michael L. ; Cadeddu, Maria P.
Author_Institution
Center of Excellence for Remote Sensing & Modeling of Severe Weather, Univ. of L´´Aquila, L´´Aquila, Italy
Volume
47
Issue
9
fYear
2009
Firstpage
3098
Lastpage
3106
Abstract
During the Radiative Heating in Underexplored Bands Campaign (RHUBC), held in February-March 2007, three millimeter-wave radiometers were operated at the Atmospheric Radiation Measurement Program´s site in Barrow, Alaska. These radiometers contain several channels located around the strong 183.31-GHz water vapor line, which is crucial for ground-based water-vapor measurements in very dry conditions, typical of the Arctic. Simultaneous radiosonde observations were carried out during conditions with very low integrated-water-vapor (IWV) content (< 2 mm). Observations from the three instruments are compared, accounting for their different design characteristics. The overall agreement during RHUBC among the three instruments and between instruments and forward model is discussed quantitatively. In general, the instrument cross-validation performed for sets of channel pairs showed agreement within the total expected uncertainty. The consistency between instruments allows the determination of the IWV to within around 2% for these dry conditions. Comparisons between these data sets and forward-model simulations using radiosondes as input show spectral features in the brightness-temperature residuals, indicating some degree of inconsistency between the instruments and the forward model. The most likely cause of forward-model error is systematic errors in the radiosonde humidity profiles.
Keywords
atmospheric humidity; millimetre wave measurement; radiometers; radiosondes; AD 2007 02 to 03; Alaska; Arctic winter; Atmospheric Radiation Measurement Program; Barrow; RHUBC; Radiative Heating in Underexplored Bands Campaign; brightness-temperature residuals; forward-model error; frequency 183.31 GHz; ground-based water-vapor measurements; instrument cross-validation; integrated-water-vapor content; millimeter-wave radiometers; radiosonde humidity profiles; systematic errors; Arctic regions; atmospheric measurements; radiometry;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing, IEEE Transactions on
Publisher
ieee
ISSN
0196-2892
Type
jour
DOI
10.1109/TGRS.2009.2020743
Filename
5161331
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