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Optical membrane

From Wikipedia, the free encyclopedia

Membrane optics is a flat lens that employs plastic in place of glass to diffract rather than reflect or refract light. Concentric microscopic grooves etched into the plastic provide the diffraction.[1]

Glass transmits light with 90% efficiency, while membrane efficiencies range from 30 to 55%. Membrane thickness is on the order of that of plastic wrap.[1]

Applications

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MOIRE program

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DARPA plans to use membrane optics as part of its Membrane Optical Imager for Real-Time Exploitation (MOIRE) program. The program uses lightweight polymer membranes for a 20-meter (66 ft) foldable plastic orbital telescope capable of seeing a 1-meter (3 ft) object from 36,000 km (22,000 mi) away. Membrane grooves range from 4 to hundreds of micrometers in width.[1]

According to DARPA, glass-based optics in satellites are reaching the point where larger mirrors exceed the lifting power of existing rockets. MOIRE is planned to be one-seventh the weight of a comparable glass-mirrored device.[1]

Individual membranes would be mounted on foldable metal petals. Once in geostationary orbit, the satellite would unfold. The membrane lens occupies one end and a sensor suite the other.[1]

The device would be the largest telescope ever built – twice the size of the ground-based twin 10-meter (33 ft) Keck telescopes. It could see about 40 percent of the Earth's surface and could image a 10 km × 10 km (6 mi × 6 mi) area at a 1-metre (3 ft) resolution and generate videos at one frame per second.[1]

A ground-based prototype consists of a section of a 5-meter (20 ft) wide device that created the first images with membrane optics.[1]

See also

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References

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  1. ^ a b c d e f g "DARPA developing giant folding space telescope". Gizmag.com. 9 December 2013. Retrieved 2013-12-10.
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