Prototype Cryospheric Experimental Synthetic Aperture Radiometer (CESAR)

Present satellite microwave radiometers typically have a coarse spatial resolution of several kilometers or more. This is only adequate only over homogenous areas. Significantly enhanced spatial resolution is critically important to reduce the uncertainty of estimated cryospheric parameters in heter...

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Bibliographic Details
Main Authors: Ruf, Christopher, Reising, Steven C., Riley, J. Thomas, Lawrence, Roland W., Pichel, Thomas, Bland, Geoffrey L., Hilliard, Lawrence M., Phelps, Norman L., Markus, Thorsten M.
Format: Other/Unknown Material
Language:unknown
Published: 2005
Subjects:
Spacecraft Instrumentation and Astrionics
Greenland
Antarc*
Antarctica
glacier
Ice Shelf
Sea ice
Online Access:http://hdl.handle.net/2060/20050212133
Description
Summary:Present satellite microwave radiometers typically have a coarse spatial resolution of several kilometers or more. This is only adequate only over homogenous areas. Significantly enhanced spatial resolution is critically important to reduce the uncertainty of estimated cryospheric parameters in heterogeneous and climatically-sensitive areas. Examples include: (1) dynamic sea ice areas with frequent lead and polynya developments and variable ice thicknesses, (2) mountainous areas that require improved retrieval of snow water equivalent, and (3) melting outlet glacier or ice shelf areas along the coast of Greenland and Antarctica. For these situations and many others, an Earth surface spot size of no more than 100 m is necessary to retrieve the information needed for significant new scientific progress, including the synthesis of field observations with satellite observations with high confidence.

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