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Conference (link) | Date/Location | Title | Presenter | Authors | Contribution (internal link) | Note |
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16 - 21 June 2024 Yokohama, Japan | ANDES, the high resolution spectrograph for the ELT: System Architecture Design of Phase-B-one | Zanutta Alessio, | LONG ABSTRACT (300-words max): | |||
16 - 21 June 2024 Yokohama, Japan | ANDES, the high resolution spectrograph for the ELT: Model-Based Systems Engineering approach | Zanutta A., Scalera M., Riva M., Balestra A., Cabona L., Di Marcantonio P., Marconi A. | LONG ABSTRACT (300-words max): | |||
16 - 21 June 2024 Yokohama, Japan | ANDES, the high resolution spectrograph for the ELT: Calibration Unit(s) | Philipp Huke | IAG: Jennifer Zimara, Sebastian Schäfer, Michael Debus, Ansgar Reiners
UNIBE: Mirsad Sarajilic, Christopher Broeg (Center for Space and Habitability, University of Bern, Gesellschaftsstrasse 6, 3012 Bern, Switzerland)
NCU: Piotr Maslowski
HWU: Yuk Shan Cheng, Kamalesh Dadi, Richard A. McCracken and Derryck T. Reid (Institute of Photonics and Quantum Sciences, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom)
IRAP/OMP: Léa Bonhomme, Driss Kouach (Observatoire Midi-Pyrénées, CNRS, Univ. de Toulouse (France)) Claude Le Men (Institut de Recherche en Astrophysique et Planétologie, CNRS (France))
LUPM: Omar Gabella
ILO: Philipp Huke (Institute for Laser and Optics, Applied University Emden/Leer) MPIA: Wolfgang Gaessler, Michael Lehmitz UH: Joerg Knoche | The instrumentation plan for the ELT foresees the ArmazoNes high Dispersion Echelle Spectrograph (ANDES). The ANDES-project and consortium entered phase B in January 2022 and underwent several (internal and external) revisions by now to ensure that the requirements and eventually the challenging goals can be met by the physical design of the spectrograph. Among its main scientific goals are the detection of atmospheres of exoplanets and the determination of fundamental physical constants. For this, high radial velocity precision and accuracy are required. Even though the ANDES-spectrograph is designed for maximum intrinsic stability, a calibration and thus a calibration unit is mandatory. To allow for maximum flexibility and modularity the calibration unit is physically split into three calibration units. We show the physical design of the calibration units and their individual components. This includes the electronics, the mechanics and the software supporting and controlling the light guiding and calibration sources. | ||
16 - 21 June 2024 Yokohama, Japan | ANDES, the high resolution spectrograph for the ELT: A novel high performances light distribution system for calibration units | Mirsad Sarajilic | see above | |||
16 - 21 June 2024 Yokohama, Japan | ANDES, the high resolution spectrograph for the ELT: a 30 GHz UB-band astrocomb from 390–470 nm | see above | ||||
16 - 21 June 2024 Yokohama, Japan | ANDES, the high-resolution spectrograph for the ELT: RAM strategy during the Preliminary Design Review | Enrico Giro | Enrico Giro Alessio Zanutta Paolo Di Marcantonio Manuel Abreu Matteo Aliverti Andrea Balestra Lorenzo Cabona Bruno Chazelas Igor Coretti Wolfgang Gaessler Philipp Huke Domenico Giannone Marco Landoni Mike MacIntosh Ernesto Oliva Livia Origlia Giorgio Pariani Edoardo Maria Alberto Redaelli Marco Riva Chiara Selmi Marco Xompero Jennifer Zimara Alessandro Marconi | |||
16 - 21 June 2024 Yokohama, Japan | ANDES, the high-resolution spectrograph for the ELT: project management for the preliminary design phase | Paolo Di Marcantonio | PM team | The ESO/ELT ANDES (ArmazoNes high Dispersion Echelle Spectrograph) project successfully completed the system architecture review and is currently finalizing its preliminary design phase. ANDES is the high-resolution spectrograph for the ELT (ESO Extremely Large Telescope) capable of reaching a resolution of R ~ 100,000 simultaneously, in a wavelength range between 0.35 -2.4 µm (goals included), characterized by high-precision and extreme calibration accuracy suitable to address a variety of flagship scientific cases across a wide range of astronomical domains. To fulfill the required specifications the proposed design adopts a modular approach where the instrument is split in four individual spectrographs, each fiber-fed, and thermally and vacuum stabilized. A dedicated front-end which host a single conjugated adaptive optics module, collects either the light from the telescope or from a calibration unit feeding in turn the individual spectrographs. To master the described complexity the same modularity is reflected also at the project management level: each of the 9 subsystems (counting also the software as a standalone subsystem) is under direct responsibility of different teams coordinated by the ANDES project office. The high distribution and the large community involvement, consisting of 24 institutes from 13 countries, represent certainly a challenge from the project management point of view. In this paper we present the project management approach we envisaged to master successfully all the ANDES project phases from the finalization of the preliminary design up to commissioning on-sky; in particular we will describe in detail the risk management and PA/QA activities we have foreseen to assure appropriate risk mitigation and an overall high quality standard required for the ANDES project. |