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This animation shows how light energy is collected by the optics system on
the Atmospheric Infrared Sounder (AIRS) instrument and digitized.
Energy from the scene is directed by the scan mirror into the AIRS
telescope. The telescope collects the Earth scene energy and defines the
instantaneous field of view (the 1.1 degree spot on the ground as opposed
to the +/- 50 degree earth scan field of view). Filters located at the
entrance to the spectrometer separate the energy into 11 different
spectral ranges. Optical elements direct this energy to a grating which
disperses the energy into a continuum of frequencies. The detector
elements then collect discrete spectralranges of (i.e. frequencies) of
energy which define the 2378 AIRS infrared spectral channels. The signals
from the detectors are digitized, formatted, etc. and transmitted to the
spacecraft which broadcast the data to the ground.
The Atmospheric Infrared Sounder (AIRS) in conjunction with the Advanced
Microwave Sounding Unit (AMSU) sense emitted infrared and microwave
radiation from the Earth to provide a three-dimensional look at Earth's
weather and climate. Working in tandem, the two instruments can make
simultaneous observations all the way down to the Earth's surface, even
in the presence of heavy clouds. With more than 2,000 channels sensing
different regions of the atmosphere, the system creates a global, 3-D map
of atmospheric temperature and humidity, cloud amounts and heights,
greenhouse gas concentrations, and many other atmospheric phenomena. The
AIRS and AMSU fly onboard NASA's Aqua spacecraft and are managed by the
Jet Propulsion Laboratory, Pasadena, California, under contract to NASA.
JPL is a division of the California Institute of Technology in Pasadena.
The AIRS Public Web site can be found at http://airs.jpl.nasa.gov.