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The Short Wave Infrared Radiometer (SWIR) is one of ASTER?s
three different subsystems.
The SWIR subsystem uses a single aspheric refracting
telescope. The detector in each of the six bands is a Platinum
Silicide-Silicon (PtSi-Si) Schottky barrier linear array cooled
to 80K. Cooling is provided by a split Stirling cycle
cryocooler with opposed compressors and an active balancer to
compensate for the expander displacer. The on-orbit design life
of this cooler is to be 50,000 hours. Although ASTER will
operate with a low duty cycle (8% average data collection time)
the cryocooler will operate continuously because the cool-down
and stabilization time is long. No cyrocooler has yet
demonstrated this length of performance and the development of
this long-life cooler is one of several major technical
challenges facing the ASTER team.
The cryocooler is a major source of heat. Because the cooler is
attached to the SWIR telescope, which must be free to move to
provide cross-track pointing, this heat cannot be removed using
a platform provided cold plate. This heat is transferred to a
local radiator attached to the cooler compressor and radiated to
space.
Six optical bandpass filters are used to provide spectral
separation. No prisms or dichroic elements are used for this
purpose. A calibration device similar to that used for the VNIR
subsystem is used for in-flight calibration. The exception is
that the SWIR subsystem has only one such device.
The NE delta rho will vary from 0.5 to 1.3% across the bands
from short to long wavelength. These performance estimates may
be optimistic for the bandpasses given in Table II. Since bands
5-9 are narrower than those used in developing the conceptual
design. The absolute radiometric accuracy is to be +4% or
better. The combined data rate for all six SWIR bands, including
supplementary telemetry and engineering telemetry, is 23 Mbps.
Additional information is available at
"http://asterweb.jpl.nasa.gov/click/click.htm"
[Summary provided by NASA]
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