CUBES phase a design overview: the Cassegrain U-Band efficient spectrograph for the very large telescope

Alessio Zanutta*, Stefano Cristiani, David Atkinson, Veronica Baldini, Andrea Balestra, Beatriz Barbuy, Vanessa Bawden P. Macanhan, Ariadna Calcines, Giorgio Calderone, Scott Case, Bruno V. Castilho, Gabriele Cescutti, Roberto Cirami, Igor Coretti, Stefano Covino, Guido Cupani, Vincenzo De Caprio, Hans Dekker, Paolo Di Marcantonio, Valentina D’OdoricoHeitor Ernandes, Chris Evans, Tobias Feger, Carmen Feiz, Mariagrazia Franchini, Matteo Genoni, Clemens D. Gneiding, Mikołaj Kałuszyński, Marco Landoni, Jon Lawrence, David Lunney, Chris Miller, Karan Molaverdikhani, Cyrielle Opitom, Giorgio Pariani, Silvia Piranomonte, Andreas Quirrenbach, Edoardo Maria Alberto Redaelli, Marco Riva, David Robertson, Silvia Rossi, Florian Rothmaier, Walter Seifert, Rodolfo Smiljanic, Julian Stürmer, Ingo Stilz, Andrea Trost, Orlando Verducci, Chris Waring, Stephen Watson, Martyn Wells, Wenli Xu, Tayyaba Zafar, Sonia Zorba

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)
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Abstract

We present the baseline conceptual design of the Cassegrain U-Band Efficient Spectrograph (CUBES) for the Very Large Telescope. CUBES will provide unprecedented sensitivity for spectroscopy on a 8 – 10 m class telescope in the ground ultraviolet (UV), spanning a bandwidth of ≥ 100 nm that starts at 300 nm, the shortest wavelength accessible from the ground. The design has been optimized for end-to-end efficiency and provides a spectral resolving power of R≥ 20000, that will unlock a broad range of new topics across solar system, Galactic and extraglactic astronomy. The design also features a second, lower-resolution (R∼ 7000) mode and has the option of a fiberlink to the UVES instrument for simultaneous observations at longer wavelengths.

Here we present the optical, mechanical and software design of the various subsystems of the instrument after the Phase A study of the project. We discuss the expected performances for the layout choices and highlight some of the performance trade-offs considered to best meet the instrument top-level requirements. We also introduce the model-based system engineering approach used to organize and manage the project activities and interfaces, in the context that it is increasingly necessary to integrate such tools in the development of complex astronomical projects.

Original languageEnglish
Pages (from-to)241-265
Number of pages25
JournalExperimental Astronomy
Volume55
Issue number1
Early online date24 May 2022
DOIs
Publication statusPublished - Feb 2023

Bibliographical note

Copyright the Author(s) 2022. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

Keywords

  • Astronomical instrumentation
  • Very Large Telescope
  • UV spectroscopy
  • Intermediate-resolution spectroscopy
  • System engineering
  • Design overview

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