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Proceedings Paper

Large holographically corrected space telescopes
Author(s): Geoff P. Andersen; W. Roc White; Randall J. Knize
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Paper Abstract

The next generation optical space telescopes with apertures > 10 m for imaging, lidar, communications and directed energy focusing will be unable to use conventional technologies which are impractical or too costly. Our solution is to construct a telescope from a lightweight, low-quality primary, which is holographically corrected for surface distortions, in situ. This scheme makes it possible to correct for apertures of virtually unlimited size, over a narrow bandwidth, at optical and UV wavelengths. In this talk we present the first holographically corrected telescope ever constructed for astronomical imaging. We present evidence that a distant beacon, combined with a static holographic recording may be the most inexpensive and simplest approach. The design of the telescope also makes it possible to incorporate an adaptive optics correction system for compensation of longer-term mirror deformation/sag and thermal distortions.

Paper Details

Date Published: 20 October 1998
PDF: 8 pages
Proc. SPIE 3432, Artificial Turbulence for Imaging and Wave Propagation, (20 October 1998); doi: 10.1117/12.327978
Show Author Affiliations
Geoff P. Andersen, U.S. Air Force Academy (United States)
W. Roc White, U.S. Air Force Academy (United States)
Randall J. Knize, U.S. Air Force Academy (United States)


Published in SPIE Proceedings Vol. 3432:
Artificial Turbulence for Imaging and Wave Propagation
John D. Gonglewski; Mikhail A. Vorontsov, Editor(s)

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