October 18, 2011
CryoSat Rocking And Rolling
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ESA´s ice satellite is rolling left and right in orbit to help it continue its precise measurements of the vast ice sheets that blanket Greenland and Antarctica.
Just this year, the first map of Arctic sea-ice thickness was unveiled, and the satellite will continue to monitor the changing ice for years to come.
To ensure the precision of the measurements, an operation is under way to roll the satellite from side to side as it flies over the flat oceans.
This maneuver is to calibrate CryoSat´s radar altimeter for measuring ice thickness, especially over the margins of ice sheets.
The altimeter has two antennas mounted on a bench about a meter apart. When it is working in the ℠SARIn´ mode, both antennas are used in parallel: one emits a signal and both receive the signals that bounce back.
Normally, this bench is parallel to Earth´s surface. But at the edges of the ice sheets, the ice surface is not always flat and the slopes affect the return signals.
Harsh conditions in space — with huge temperature differences between Sun and shade — can lead to the deterioration of CryoSat´s instruments, which can also lead to measurement errors.
In order to quantify these errors, ESA ground controllers are working to recalibrate the altimeter.
They are rolling the satellite to simulate the ice slopes and holding it in this position for several minutes. This must be done while CryoSat is over large, flat surfaces. For satellite altimeters, oceans are Earth´s largest flat surfaces.
It will also check whether errors are related to CryoSat´s varying thermal conditions — like when exposed to the Sun or in the shade.
“With the results from the different sets of rolls over different ocean surfaces and at different ambient conditions, we are aiming to characterize the instrument to a precision better than we thought we could make at the time of the launch,” said Tommaso Parrinello, CryoSat mission manager.
During several maneuvers on Monday and Tuesday, the satellite is rolling 0.4º to both sides while over the Indian and Pacific oceans, before returning to its original position.
“The preparations for the roll activities have been quite challenging,” explained Nic Mardle, spacecraft operations manager.
“Although we had experience of these activities from the commissioning phase, we had to iterate a few more times with the planning and mission control teams so that we could support exactly what was required.”
The complex calibration is a joint effort between ESA´s ESRIN center for Earth observation in Italy and its ESOC operations center in Germany.
CryoSat is dedicated to monitoring changes in the thickness of marine ice floating in the polar oceans and of the vast ice sheets that extend over Greenland and the Antarctic.
Satellites have already shown that the extent of sea ice in the Arctic is diminishing. In fact, this year´s minimum has set a new record low.
Image 1: CryoSat is able to measure the freeboard (the height protruding above the water) of floating sea ice with its sensitive altimeter. From the freeboard, the ice thickness can be estimated. Credits: ESA /AOES Medialab
Image 2: CryoSat´s exceptionally detailed data have been used to generate this map of sea-ice thickness in the Arctic. Data from January and February this year have been used to show the thickness of the ice as it approaches its annual maximum. Thanks to CryoSat´s orbit, ice thickness close to the North Pole can be seen for the first time. Credits: CPOM/UCL/ESA
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