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‘Time Traveling’ Mirrors Arrive at Space Center

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GREENBELT, Md., April 27, 2011 — NASA's Goddard Space Flight Center has received the primary and secondary mirror engineering design units (EDUs) from Northrop Grumman Aerospace Systems. The units currently are undergoing examination and testing, and when used on the James Webb Space Telescope, will allow scientists to make observations further back in time than ever.

"The primary mirror EDU will be used next year to check out optical test equipment developed by Goddard and slated to be used to test the full Flight Primary mirror," said Lee Feinberg, the optical telescope element manager for the Webb telescope at NASA Goddard. "Following that, the primary and secondary EDUs will actually be assembled onto the Pathfinder telescope ... [which] includes two primary mirror segments (one being the Primary EDU) and the Secondary EDU and allows us to check out all of the assembly and test procedures (that occur both at Goddard and testing at Johnson Space Center in Houston) well in advance of the flight telescope assembly and test."

An engineer examines the Webb telescope primary mirror engineering design unit segment in the cleanroom at NASA's Goddard Space Flight Center in Greenbelt, Md. (Image: Chris Gunn/NASA)

The Primary mirror is composed of 18 smaller hexagonal mirrors that are assembled together into what appears to be a giant hexagon that sits atop the Webb telescope's sunshield. Webb Telescope's scientists and engineers determined that a primary mirror measuring 6.5 m (21 ft, 4 in.) across is what was needed to measure the light from these distant galaxies. Each mirror is constructed from beryllium, a light and strong metal. Each of the 18 mirror segments weighs ~20 kg (46 lb).

The mirrors are hexagonal shaped because a hexagon allows a segmented mirror to fit together without gaps. When Webb's primary mirror is focused on a distant star, for example, that image will appear in all 18 mirror segments. To focus on the star and get one image, the mirror segments can then be tilted to align the 18 separate images into a single image.

Although there are 18 segments, there are three different optical prescriptions for the 18 segments: six segments of each prescription. The segment received is the first of the "A" prescription segments, for which a total of seven will be made — six flight and one spare. A prescription is similar to an eyeglass prescription and specifies a unique mirror curvature. As witheyeglasses, mirrors with the same prescription are interchangeable.

This artist's rendition of the James Webb Space Telescope shows where the primary and secondary mirrors are located. (Image: NASA)

The primary mirror EDU is also a flight spare, which means that it can be used on the actual telescope; in fact, even placed on the telescope now if needed.

Ball Aerospace & Technologies cleaned the primary mirror segment, and Quantum Coating Inc. coated it. Ball Aerospace then took the mirror segment back, reassembled it with mounts and actuators and conducted final vibration testing.

Afterward, the mirror segment went back to the X-ray and Cryogenic Facility (XRCF), where Ball performed final cryogenic acceptance testing on the segment before it went to NASA Goddard.

The secondary mirror on the Webb telescope will direct the light from the primary mirror to where it can be collected by the Webb's instruments. The secondary mirror is connected to "arms" that position it in front of the 18 primary mirror segments. It will focus all of the light from the 18 primary mirrors.

The secondary EDU at Goddard is not coated, but it can be, enabling it to be a flight spare.

Eventually, the final flight mirrors will all come to NASA Goddard and be assembled on the telescope and the instrument module. Then, as a complete unit, it will undergo acoustic and vibration testing at Goddard.

For more information, visit:
Apr 2011
AlabamaAmericasCaliforniaGoddard Space Flight Centerhexagonal mirrorsimagingJames Webb Space TelescopeLee FeinbergMarylandMaterials & ChemicalsmirrorsNASANew JerseyNorthrop GrummanopticsPathfinder telescopePrimary and Secondary Mirror Engineering Design UnitsQuantum Coating Inc.Research & TechnologyTest & MeasurementTexasX-ray and Cryogenic Facility

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