Enhancing the Capability of Future Medium-size Telescopes: First Light of the SALTO Demonstrator
Jyotirmay Paul,
Space sciences, Technologies, and Astrophysics Research (STAR) Institute, Université de Liège, Belgium. Corresponding author:
jpaul@uliege.be
Gilles Orban de Xivry,
Space sciences, Technologies, and Astrophysics Research (STAR) Institute, Université de Liège, Belgium.
Olivier Absil,
Space sciences, Technologies, and Astrophysics Research (STAR) Institute, Université de Liège, Belgium.
Cédric Adam,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Pierre Albart,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Christian Bastin,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Alice Boulanger,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Jonathan de Ville,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Eric Gabriel,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Laurence Méant,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Vincent Moreau,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Sabrina Orban,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Pierre Remacle,
Advanced Mechanical and Optical System (AMOS), Liège, Belgium
Fabian Languy,
Centre Spatial de Liège (CSL), Université de Liège, Belgium
Marc Georges,
Centre Spatial de Liège (CSL), Université de Liège, Belgium
Jean-François Vandenrijt,
Centre Spatial de Liège (CSL), Université de Liège, Belgium
Gabriel Millou,
Centre Spatial de Liège (CSL), Université de Liège, Belgium
Claude Nigot,
Redu Space Services (RSS), Redu, Belgium
Vincenzo Caramia,
Redu Space Services (RSS), Redu, Belgium
Abstract
The adaptive optics (AO) technology is crucial to achieve the full potential of ground-based telescopes. Over the last three decades, the world has witnessed the successful advent and operation of AO systems on large ground-based telescopes. The complexity and cost of AO systems have largely gone down in the last decade thanks to advances in deformable mirror, wavefront sensor, and real-time computing technologies. Here, we present a robust Rayleigh scattered laser-guided single conjugated adaptive optics system called SALTO, which was designed, built, and tested in the Belgian countryside on a 1-meter class telescope. This project aims to demonstrate the possibility of rejuvenating the scientific goals of medium-class telescopes (1-3 m) with AO technology, as well as to enable optical telecommunication from relatively poor observing sites. This paper discusses the overview of the design, integration and calibration of SALTO. It concludes with the presentation of successful on-sky results at 1.55 μm under 2-3" seeing.
Keywords : atmospheric effects, adaptive optics, laser guide star, high angular resolution
Para citar este artículo
Jyotirmay Paul, Gilles Orban de Xivry, Olivier Absil, Cédric Adam, Pierre Albart, Christian Bastin, Alice Boulanger, Jonathan de Ville, Eric Gabriel, Laurence Méant, Vincent Moreau, Sabrina Orban, Pierre Remacle, Fabian Languy, Marc Georges, Jean-François Vandenrijt, Gabriel Millou, Claude Nigot & Vincenzo Caramia, «Enhancing the Capability of Future Medium-size Telescopes: First Light of the SALTO Demonstrator», Bulletin de la Société Royale des Sciences de Liège [En ligne], Volume 93 - Année 2024, No 2 - Proceeedings of the 3rd BINA Workshop on the Scientific Potential of the Indo-Belgian Cooperation, 44-55 URL : https://popups.uliege.be/0037-9565/index.php?id=11594.
