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From: Roger Nelson
To: All
Date: 2017-04-17 21:42:04
Subject: Readying the Webb Telescope for Launch

Readying the Webb Telescope for Launch
 
The most sophisticated space science telescope ever constructed - the James
Webb Space Telescope (JWST) - is targeted to launch in October 2018. With a
primary mirror three times as wide as The Hubble Space Telescope and a
special sensitivity to penetrating infrared radiation, Webb will peer into
the far reaches of the universe to reveal how the first stars and galaxies
formed after the Big Bang.
 
https://www.youtube.com/watch?v=pKzmqlkPvzo
 
Stringent testing is underway to prove it can handle an Earth-shaking
take-off and still capture the universe's first light while deeply
ensconced in the hyper-cold of space. At NASA's Goddard Space Flight Center
in Greenbelt, MD engineers are testing Webb's science payload in special
facilities simulating launch vibration and noise.
 
Eric Smith is the JWST Program Director/Program Scientist. "This is
the most dynamically complex large telescope ever subjected to vibration
tests by NASA. The telescope must deploy in a precisely synchronized
sequence as the temperature drops to near absolute zero on its journey to
L2."
 
"Webb has many interconnected parts of different stiffnesses. All
those parts - including the folded, stowed instruments and mirrors - have
to survive launch at room temperature. These elements must then all come
together seamlessly in extreme cold to form perfect optical images. All
materials change shape as they cool. A flower blossom, a marshmallow, even
some metals, will shatter or break if hyper-frozen and dropped onto a hard
surface or bent."
 
"All of Webb's components, once assembled, must cool and move in
precisely the right way so that the ultra-fine optical tolerances are met
when everything is cold. Think of being able to repeatedly parallel park
your car and know the position of your back bumper to within a 10th of a
diameter of a human hair.  That's how accurate we must be in knowing the
position of our mirror surfaces."
 
To make this happen, Webb was vibration tested at Goddard, and it will
undergo cryogenic testing at Johnson Space Center in Houston, TX. Cryogenic
testing involves taking the entire telescope and instrument package to a
temperature of approximately 40 degrees above absolute zero - that's a very
chilly minus 388 degrees Farenheit (minus 198 degrees Celsius) - and making
sure its components work as predicted. The science instruments, mirror
segments, and mirror base structure were cold-tested previously. At
Johnson, the whole assembly - instrument module plus mirrors -- will be
cryogenically tested together for the first time.
 
Upon proving that it's up to cold snuff, Webb's science section will travel
to a Northrop Grumman facility in Redondo Beach, CA for attachment to the
spacecraft bus and sunshield. After further vibration and acoustic testing,
it's off to French Guiana for launch atop an Ariane 5 rocket.
 
"Seeing our hopes realized in intricate, awe-inspiring hardware is
thrilling. Of course, the ultimate goal of the mission is not the hardware
itself but the knowledge it will return. We are just now beginning to once
again reach out to the science research community for their ideas of what
to observe with Webb, and that is the most exciting part by far!"
 
For more news about NASA's next great space telescope, stay tuned to
science.nasa.gov.
 
 
Regards,
 
Roger

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