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Proceedings Paper

Atmospheric Turbulence Effects On Large Telescope Image Motion And Size
Author(s): Fred F. Forbes; Neville J. Woolf
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Paper Abstract

Astronomical seeing has been studied by measuring image size and motion using relatively small (~0.5 m) telescopes. These techniques have been successfully extended to telescopes in the 2-4 m class. For site survey investigations, it is desirable to use a compact telescope elevated such that seeing measurements are free of image degradation due to ground effects. The smaller instrument suffers from image degradation due to diffraction under the testing conditions of greatest interest, namely, sub-arcsecond seeing. Although image motion measurements can be extended to conditions of excellent seeing, it has not been demonstrated that small telescope images are representative of large telescope images with regards to image size or motion. In an attempt to understand image scaling laws between large and small telescopes, we have studied image motion and profiles for telescopes from 0.6 to 4.0 m in diameter under .seeing conditions extending from sub-arcsecond to several arcseconds. A model is presented in which image motion data taken with small telescopes can be used to predict image profiles that would be measured with a 15 m class telescope. We also consider the signal to noise aspects of measuring seeing by way of image motion and small telescopes.

Paper Details

Date Published: 3 November 1983
PDF: 9 pages
Proc. SPIE 0444, Advanced Technology Optical Telescopes II, (3 November 1983); doi: 10.1117/12.937975
Show Author Affiliations
Fred F. Forbes, Kitt Peak National Observatory (United States)
Neville J. Woolf, University of Arizona (United States)

Published in SPIE Proceedings Vol. 0444:
Advanced Technology Optical Telescopes II
Lawrence D. Barr; Brian Mack, Editor(s)

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