Aluminum based large telescopes: the ARIEL mission case

P. Picchi; A. Tozzi; A. Brucalassi; Antonio J. Araiza; E. Pace; P. Chioetto; P. Zuppella; A. Scippa; R. Lilli; D. Gottini; J. Alvarez; A. García; Alejandro J. Soler; F. D'Anca; E. Guerriero; C. Del Vecchio; G. Falcini; L. Carbonaro; P. Eccleston; A. Caldwell; D. Ferruzzi; G. Malaguti; G. Micela; E. Pascale; A. Bocchieri; G. Preti; R. Piazzolla; M. Salatti; D. Brienza; E. Tommasi; G. Tinetti; D. Vernani; G. Morgante

doi:10.1117/12.3018855

23 August 2024 Aluminum based large telescopes: the ARIEL mission case

P. Picchi, A. Tozzi, A. Brucalassi, Antonio J. Araiza, E. Pace, P. Chioetto, P. Zuppella, A. Scippa, R. Lilli, D. Gottini, J. Alvarez, A. García, Alejandro J. Soler, F. D'Anca, E. Guerriero, C. Del Vecchio, G. Falcini, L. Carbonaro, P. Eccleston, A. Caldwell, D. Ferruzzi, G. Malaguti, G. Micela, E. Pascale, A. Bocchieri, G. Preti, R. Piazzolla, M. Salatti, D. Brienza, E. Tommasi, G. Tinetti, D. Vernani, G. Morgante

Author Affiliations +

Proceedings Volume 13092, Space Telescopes and Instrumentation 2024: Optical, Infrared, and Millimeter Wave; 130924G (2024) https://doi.org/10.1117/12.3018855
Event: SPIE Astronomical Telescopes + Instrumentation, 2024, Yokohama, Japan

Conference Poster

Abstract

Ariel (Atmospheric Remote-Sensing Infrared Exoplanet Large Survey) is the adopted M4 mission of ESA “Cosmic Vision” program. Its purpose is to conduct a survey of the atmospheres of known exoplanets through transit spectroscopy. Launch is scheduled for 2029. Ariel scientific payload consists of an off-axis, unobscured Cassegrain telescope feeding a set of photometers and spectrometers in the waveband between 0.5 and 7.8 µm, and operating at cryogenic temperatures. The Ariel Telescope consists of a primary parabolic mirror with an elliptical aperture of 1.1 m of major axis, followed by a hyperbolic secondary, a parabolic recollimating tertiary and a flat folding mirror. The Primary mirror is a very innovative device made of lightened aluminum. Aluminum mirrors for cryogenic instruments and for space application are already in use, but never before now it has been attempted the creation of such a large mirror made entirely of aluminum: this means that the production process must be completely revised and fine-tuned, finding new solutions, studying the thermal processes and paying a great care to the quality check. By the way, the advantages are many: thermal stabilization is simpler than with mirrors made of other materials based on glass or composite materials, the cost of the material is negligeable, the shape may be free and the possibility of making all parts of the telescope, from optical surfaces to the structural parts, of the same material guarantees a perfect alignment at whichever temperature. The results and expectations for the flight model are discussed in this paper.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

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P. Picchi, A. Tozzi, A. Brucalassi, Antonio J. Araiza, E. Pace, P. Chioetto, P. Zuppella, A. Scippa, R. Lilli, D. Gottini, J. Alvarez, A. García, Alejandro J. Soler, F. D'Anca, E. Guerriero, C. Del Vecchio, G. Falcini, L. Carbonaro, P. Eccleston, A. Caldwell, D. Ferruzzi, G. Malaguti, G. Micela, E. Pascale, A. Bocchieri, G. Preti, R. Piazzolla, M. Salatti, D. Brienza, E. Tommasi, G. Tinetti, D. Vernani, and G. Morgante "Aluminum based large telescopes: the ARIEL mission case", Proc. SPIE 13092, Space Telescopes and Instrumentation 2024: Optical, Infrared, and Millimeter Wave, 130924G (23 August 2024); https://doi.org/10.1117/12.3018855

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