Astronomy and Astrophysics – Astronomy
Scientific paper
Sep 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004spie.5495..282e&link_type=abstract
Astronomical Structures and Mechanisms Technology. Edited by Antebi, Joseph; Lemke, Dietrich. Proceedings of the SPIE, Volume 54
Astronomy and Astrophysics
Astronomy
Scientific paper
While many telescopes employ some form of thermal monitoring and control to reach their surface accuracy and pointing specifications, such thermal systems are generally not available during field erection of the telescope structure. This presents a problem for large structures, because their size results in structural members with long time constants and substantial total deformations. These characteristics can potentially result in the development of significant thermal gradients across the structure or even across the width of a member. The resulting temperature variations complicate the alignment of critical features, including the main axes. As a result, it would be advantageous to monitor the thermal behavior of a large telescope structure during its construction. In the past, such monitoring was made difficult because of the size of the structure, continuing construction work, or rugged field conditions. However, with the advent of affordable field-ready thermal imaging systems, it is now possible to perform such monitoring. In this paper, we present thermal images of the alidade structure of the Large Millimeter-wave Telescope (LMT/GTM) at its site at 4600m on the top of Volcan Sierra Negra in central Mexico. We present images of typical thermal distributions for different times of day, and compare them with basic analytical models. Finally, we use the thermal imaging results to predict the effects of the temperature distribution on the location of the azimuth bogie connections and the elevation axis.
Enriquez Rogerio
Smith David R.
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