Title :
The Aquarius Ocean Salinity Mission High Stability L-band Radiometer
Author :
Pellerano, Fernando A. ; Piepmeier, Jeffrey ; Triesky, Michael ; Horgan, Kevin ; Forgione, Joshua ; Caldwell, James ; Wilson, William J. ; Yueh, Simon ; Spencer, Michael ; McWatters, Dalia ; Freedman, Adam
Author_Institution :
Goddard Space Flight Center, Greenbelt, MD
fDate :
July 31 2006-Aug. 4 2006
Abstract :
The NASA Earth Science System Pathfinder (ESSP) mission Aquarius, will measure global ocean surface salinity with ~120 km spatial resolution every 7-days with an average monthly salinity accuracy of 0.2 psu (parts per thousand) [1]. This requires an L-band low-noise radiometer with the long-term calibration stability of les0.15 K over 7 days. The instrument utilizes a push-broom configuration which makes it impractical to use a traditional warm load and cold plate in front of the feedhorns. Therefore, to achieve the necessary performance Aquarius utilizes a Dicke radiometer with noise injection to perform a warm - hot calibration. The radiometer sequence between antenna, Dicke load, and noise diode has been optimized to maximize antenna observations and therefore minimize NEDT. This is possible due the ability to thermally control the radiometer electronics and front-end components to 0.1degCrms over 7 days.
Keywords :
oceanography; radiometers; remote sensing; Dicke load; Dicke radiometer; ESSP mission Aquarius; L-band low-noise radiometer; NASA Earth Science System Pathfinder; NEDT; antenna; front-end components; global ocean surface salinity; noise diode; noise injection; push-broom configuration; radiometer electronics; thermal control; Calibration; Geoscience; L-band; Loaded antennas; NASA; Ocean salinity; Radiometry; Sea measurements; Sea surface; Stability;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 2006. IGARSS 2006. IEEE International Conference on
Conference_Location :
Denver, CO
Print_ISBN :
0-7803-9510-7
DOI :
10.1109/IGARSS.2006.435
