Segmented mirror
A segmented mirror is an array of smaller mirrors designed to act as segments of a single large curved mirror. The segments can be either spherical or asymmetric. They are used as objectives for large reflecting telescopes. To function, all the mirror segments have to be polished to a precise shape and actively aligned by a computer-controlled active optics system using actuators built into the mirror support cell.
The concept was pioneered by Guido Horn D'Arturo, who built the first working segmented mirror in 1952, after twenty years of research; It was later independently rediscovered and further developed under the leadership of Dr. Jerry Nelson at the Lawrence Berkeley National Laboratory and University of California during the 1980s, and since then all the necessary technologies have spread worldwide to the point that essentially all future large optical telescopes plan to use segmented mirrors.
Application
There is a technological limit for primary mirrors made of a single rigid piece of glass. Such non-segmented, or monolithic mirrors can not be constructed larger than about eight meters in diameter. The largest monolithic mirrors in use are currently the two primary mirrors of the Large Binocular Telescope, each with a diameter of 8.4 meters. The use of segmented mirrors is therefore a key component for large-aperture telescopes. Using a monolithic mirror much larger than 5 meters is prohibitively expensive due to the cost of both the mirror, and the massive structure needed to support it. A mirror beyond that size would also sag slightly under its own weight as the telescope was rotated to different positions, changing the precision shape of the surface. Segments are also easier to fabricate, transport, install, and maintain over very large monolithic mirrors.Segmented mirrors do have the drawback that each segment may require some precise asymmetrical shape, and rely on a complicated computer-controlled mounting system. All of the segments also cause diffraction effects in the final image.
Another application for segmented mirrors can be found in the augmented reality sector to minimize the size of the optical components. A partial reflective segmented mirror array is used by to out-couple the light from their light guides, which is used as an optical smartglass element.
Telescopes using segmented mirrors
Some of the largest optical telescopes in the world use segmented primary mirrors. These include, but are not limited to the following telescopes:Keck Telescopes
[Image:KeckObservatory20071013.jpg|thumb|upright=0.7|The Keck II telescope showing the segmented primary mirror]The twin Keck Telescopes are the most prominent of the Mauna Kea Observatories at an elevation of 4,145 meters near the summit of Mauna Kea in Hawaii, United States. Both telescopes feature primary mirrors.