Taking the twinkle out of starlight

Author

Lloyd-hart, Michael

Volume

40

Issue

12

fYear

2003

fDate

6/25/1905 12:00:00 AM

Firstpage

22

Lastpage

29

Abstract

The article discusses the technology called adaptive optics used in improving telescopes, enabling astronomers to capture clear, sharp images of the galaxies, stars, and planets that populate the universe. The technique brings together the latest in computers, materials science, electronic detectors, and digital control in a system that warps and bends a mirror in the telescope to counteract, in real time, the atmospheric distortion. An adaptive optics system installed on the 6.5-meter-diameter telescope, called the MMT telescope, on Mt. Hopkins, south of Tucson, Arizona, takes the technology a step further. The ways by which adaptive optics overcomes the deficiencies of conventional telescopes with the design and structure of the adaptive secondary mirror and the use of ing interferometry are discussed.

Keywords

adaptive optics; astronomical techniques; astronomical telescopes; astronomy computing; image resolution; light interferometry; mirrors; optical design techniques; 6.5 m; Arizona; MMT telescope; Mt. Hopkins; adaptive optics; atmospheric distortion; digital control; image capture; ing interferometry; optical wave front corrector; real time counteraction; secondary mirrors; telescope mirror bending; Adaptive optics; Detectors; Digital control; Materials science and technology; Mirrors; Optical distortion; Planets; Real time systems; Space technology; Telescopes;

fLanguage

English

Journal_Title

Spectrum, IEEE

Publisher

ieee

ISSN

0018-9235

Type

jour

DOI

10.1109/MSPEC.2003.1249975

Filename

1249975