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13 September 1994 Edison: a new direction for infrared space astronomy
Harley A. Thronson Jr., Timothy G. Hawarden, John K. Davies, Alan J. Penny, Toshio Matsumoto
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Proceedings Volume 2209, Space Optics 1994: Earth Observation and Astronomy; (1994) https://doi.org/10.1117/12.185263
Event: Space Optics '94, 1994, Garmisch, Germany
Abstract
Previous designs for infrared space observatories assumed that the best method of cooling these systems was a single large tank of liquid helium. Although effective, as demonstrated by the IRAS and, soon, the ISO missions, this technique produces limited lifetime, small telescope aperture, and inflexibility in optical design. More modern spacecraft designs, including the Japanese IRIS and European Edison concepts, instead adopt multiple cooling strategies: radiative, cryogenic, and/or mechanical. This alternative philosophy permits each technique to be applied to the most appropriate task, taking advantage of strengths of each technology and minimizing weaknesses. In this paper we give a brief history of the development of some cooling technologies, emphasizing the advantages of the designs adopted for a pair of possible future infrared space missions, IRIS and Edison. We also briefly discuss negative aspects of the IRAS legacy in infrared spacecraft design and we speculate on what types of missions might follow IRIS and Edison.
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Harley A. Thronson Jr., Timothy G. Hawarden, John K. Davies, Alan J. Penny, and Toshio Matsumoto "Edison: a new direction for infrared space astronomy", Proc. SPIE 2209, Space Optics 1994: Earth Observation and Astronomy, (13 September 1994); https://doi.org/10.1117/12.185263
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KEYWORDS
Space telescopes
Space operations
Telescopes
Infrared radiation
Cryogenics
IRIS Consortium
Optical instrument design
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