First light of the OVLA active mirror with its surface heating system

Olivier Lardiere; Luc Arnold; Julien Dejonghe

doi:10.1117/12.391533

20 July 2000 First light of the OVLA active mirror with its surface heating system

Olivier Lardiere, Luc Arnold, Julien Dejonghe

Proceedings Volume 4003, Optical Design, Materials, Fabrication, and Maintenance; (2000) https://doi.org/10.1117/12.391533
Event: Astronomical Telescopes and Instrumentation, 2000, Munich, Germany

Abstract

The Optical Very Large Array (OVLA) project consists in a kilometric-size optical interference of 27 mobile 1.5 m telescopes designed to provide high-resolution IR and visible snap-shot images. An OVLA prototype telescope has been developed at the Observatoire de Haute-Provence. It features a 1.5 m meniscus-shaped f/1.7 primary mirror weighting 200 kg including its active cell with 32 actuators. The mirror blank made of 24 mm-thick ordinary window glass is very cheap but extremely sensitive to temperature variations because of its large CTE (3 times larger than Pyrex). Indeed, the mirror shows a Z11 equals 3150 nm rms wavefront error due to a 0.5 degree(s)C thermal gradient generated between its front and back side by an unbalanced heat dissipation towards the night sky and the ground. This spherical aberration, too large to be corrected by the actuators, is compensated by an uniform electrical current generated through the aluminum coating by 42 peripheral electrodes. We also describe the electrodes control hardware and present some results obtained during the first light of the telescope. Lastly, we propose a possible upgraded surface heating system to adjust thermally other optical aberrations.

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Olivier Lardiere, Luc Arnold, and Julien Dejonghe "First light of the OVLA active mirror with its surface heating system", Proc. SPIE 4003, Optical Design, Materials, Fabrication, and Maintenance, (20 July 2000); https://doi.org/10.1117/12.391533

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KEYWORDS

Mirrors

Electrodes

Telescopes

Coating

Monochromatic aberrations

Aluminum

Glasses

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