02.07.07
NASA's Largest Space Telescope Mirror Will See Deeper Into Space
When scientists are looking into space, the more they can see, the
easier it is to piece together the puzzle of the cosmos. The
James Webb Space Telescope's mirror blanks have now been constructed.
When polished and assembled, together they will form a mirror
whose area is over seven times larger than the Hubble Telescope's
mirror.
A telescope’s
sensitivity, or how much detail it can see, is directly related to
the size of the mirror area that collects light from the cosmos.
A larger area collects more light to see deeper into space, just like
a larger bucket collects more water in a rain shower than a small one.
The larger mirror also means the James Webb Space Telescope (JWST) will
have excellent resolution. That's why the telescope's mirror is made
up of 18 mirror segments that form a total area of 25 square-meters (almost
30 square yards) when they all come together.
The challenge was to make the mirrors lightweight for launch, but
nearly distortion-free for excellent image quality. That challenge
has been
met by AXSYS Technologies., Inc., Cullman, Ala. "From the start,
AXSYS Technologies has been a key player in the mirror technology development
effort," said Kevin Russell, mirror development lead at NASA's
Marshall Spaceflight Center, Huntsville, Ala.
If the mirror were assembled completely and fully opened on the ground,
there would be no way to fit it into a rocket. Therefore, the Webb
Telescope's 18 mirror segments must be set into place when the telescope
is in space.
Engineers solved this problem by allowing the segmented mirror to fold,
like the leaves of a drop-leaf table.
Each of
the 18 mirrors will have the ability to be moved individually, so that
they can be aligned together to act as a single large mirror.
Scientists and engineers can also correct for any imperfections after
the telescope opens in space, or if any changes occur in the mirror during
the life of the mission.
Each segment is made of beryllium, one of the
lightest of all metals known to man. Beryllium has been used in other
space telescopes and has worked well at the super-frigid temperatures
of space in which the telescope will operate.
Each of the hexagonal-shaped mirror segments is 1.3 meters (4.26 feet)
in diameter, and weighs approximately 20 kilograms or 46 pounds. The
completed primary mirror will be over 2.5 times larger than the diameter
of the Hubble Space Telescope's primary mirror, which is 2.4 meters in
diameter, but will weigh roughly half as much.
"
The James Webb Space Telescope will collect light approximately 9 times
faster than the Hubble Space Telescope when one takes into account the
details of the relative mirror sizes, shapes, and features in each design," said
Eric Smith, JWST program scientist at NASA Headquarters, Washington.
The increased sensitivity will allow scientists to see back to when the
first galaxies formed just after the Big Bang. The larger telescope will
have advantages for all aspects of astronomy and will revolutionize studies
of how stars and planetary systems form and evolve.
JWST will have a 6.6 meter (21.65 feet) diameter primary mirror, which would give it a significant larger collecting area than the mirrors available on the current generation of space telescopes. Hubble Space Telescope's mirror is a much smaller 2.4 meters (7.8 feet) in diameter.
The 18 mirrors have now been shipped to L-3 Communications SSG-Tinsley,
Richmond, Calif. where they can be ground and polished.
After the grinding and polishing, the mirror segments will be delivered
to Ball Aerospace in small groups where they will be assembled. Once
the mirrors are completed, they will go to NASA's Goddard Space Flight
Center, Greenbelt, Md., for final assembly on the telescope.
Upon successful launch in 2013, JWST will study the first stars and galaxies
following the Big Bang.