Astronomical instrumentation

OPTIMOS-EVE design trade-off analysis

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

F Chemla, G Dalton, I Guinouard, J Pragt, E Sawyer, P Spanò, IA Tosh, MI Andersen, R Navarro, F Hammer, L Kaper

Abstract:

OPTIMOS-EVE (OPTical Infrared Multi Object Spectrograph - Extreme Visual Explorer) is the fiber fed multi object spectrograph proposed for the E-ELT. It is designed to provide a spectral resolution ranging from 5000 to 30.000, at wavelengths from 0.37 μm to 1.70 μm, combined with a high multiplex (>200) and a large spectral coverage. The system consists of three main modules: a fiber positioning system, fibers and a spectrograph. The OPTIMOS-EVE Phase-A study, carried out within the framework of the ESO E-ELT instrumentation studies, has been performed by an international consortium consisting of institutes from France, Netherlands, United Kingdom, Italy and Denmark. This paper describes the design tradeoff study and the key issues determining the price and performance of the instrument. © 2010 Copyright SPIE - The International Society for Optical Engineering.

Overview of the GYES instrument: A multifibre high-resolution spectrograph for the prime focus of the Canada-France-Hawaii Telescope

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

S Mignot, M Cohen, G Dalton, JL Dournaux, G Fasola, I Guinouard, D Horville, JM Huet, P Laporte, I Lewis, F Royer

Abstract:

ESA's cornerstone mission Gaia will construct a billion-star catalogue down to magnitude 20 but will only provide detailed chemical information for the brighter stars and will be lacking radial velocity at the faint end due to insufficient Signal-to-Noise Ratios (SNR). This calls for the deployment of a ground spectrograph under time scales coherent with those of Gaia for a complementary survey. The GYES instrument is a high resolution (∼ 20,000) spectrometer proposed for installation on the Canada- France-Hawaii Telescope (CFHT) to perform this survey in the northern hemisphere. It exploits the large Field of View (FoV) available at the prime focus together with a high multiplex (∼ 500 fibres) to achieve a SNR of 30 in two hours at magnitude 16 and render the survey possible on the order of 300 nights. The on-going feasibility study aims at jointly optimising all components of the system: the field corrector, the positioner, the fibres and the spectrograph. The key challenges consist in accommodating the components in the highly constrained environment of the primary focus, as well as in achieving maximum efficiency thanks to high transmission and minimum reconfiguration delays. Meanwhile, for GYES to have its first light at the time of Gaia's initial data release (2014-2015), it is mandatory to keep its complexity down by designing a predominantly passive instrument. © 2010 Copyright SPIE - The International Society for Optical Engineering.

Project overview of OPTIMOS-EVE: The fibre-fed multi-object spectrograph for the E-ELT

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

R Navarro, F Chemla, P Bonifacio, H Flores, I Guinouard, JM Huet, M Puech, F Royer, JH Pragt, G Wulterkens, EC Sawyer, ME Caldwell, IAJ Tosh, MS Whalley, GFW Woodhouse, P Spanò, P Di Marcantonio, MI Andersen, GB Dalton, L Kaper, F Hammer

Abstract:

OPTIMOS-EVE (OPTical Infrared Multi Object Spectrograph - Extreme Visual Explorer) is the fibre fed multi object spectrograph proposed for the European Extremely Large Telescope (E-ELT), planned to be operational in 2018 at Cerro Armazones (Chile). It is designed to provide a spectral resolution of 6000, 18000 or 30000, at wavelengths from 370 nm to 1.7 μm, combined with a high multiplex (>200) and a large spectral coverage. Additionally medium and large IFUs are available. The system consists of three main modules: a fibre positioning system, fibres and a spectrograph. The recently finished OPTIMOS-EVE Phase-A study, carried out within the framework of the ESO E-ELT instrumentation studies, has been performed by an international consortium consisting of institutes from France, Netherlands, United Kingdom and Italy. All three main science themes of the E-ELT are covered by this instrument: Planets and Stars; Stars and Galaxies; Galaxies and Cosmology. This paper gives an overview of the OPTIMOS-EVE project, describing the science cases, top level requirements, the overall technical concept and the project management approach. It includes a description of the consortium, highlights of the science drivers and resulting science requirements, an overview of the instrument design and telescope interfaces, the operational concept, expected performance, work breakdown and management structure for the construction of the instrument, cost and schedule. © 2010 Copyright SPIE - The International Society for Optical Engineering.

Recent progress on the KMOS multi-object integral-field spectrograph for ESO VLT

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

R Sharples, R Bender, A Agudo Berbel, R Bennett, N Bezawada, N Bouché, D Bramall, M Casali, M Cirasuolo, P Clark, M Cliffe, R Davies, R Davies, N Drory, M Dubbeldam, A Fairley, G Finger, R Genzel, R Haefner, A Hess, P Jeffers, I Lewis, D Montgomery, J Murray, B Muschielok, N Förster Schreiber, J Pirard, S Ramsay-Howat, P Rees, J Richter, D Robertson, I Robson, S Rolt, R Saglia, J Schlichter, M Tecza, S Todd, M Wegner, E Wiezorrek

Abstract:

KMOS is a near-infrared multi-object integral-field spectrometer which is one of a suite of second-generation instruments under construction for the VLT. The instrument is being built by a consortium of UK and German institutes working in partnership with ESO and is now in the manufacture, integration and test phase. In this paper we present an overview of recent progress with the design and build of KMOS and present the first results from the subsystem test and integration. © 2010 Copyright SPIE - The International Society for Optical Engineering.

The Oxford SWIFT spectrograph: First commissioning and on-sky results

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

N Thatte, M Tecza, F Clarke, T Goodsall, L Fogarty, R Houghton, G Salter, N Scott, RL Davies, A Bouchez, R Dekany

Abstract:

The Oxford SWIFT spectrograph, an I & z band (6500-10500 A) integral field spectrograph, is designed to operate as a facility instrument at the 200 inch Hale Telescope on Palomar Mountain, in conjunction with the Palomar laser guide star adaptive optics system PALAO (and its upgrade to PALM3000). SWIFT provides spectra at R(≡λ/Δλ)∼4000 of a contiguous two-dimensional field, 44 x 89 spatial pixels (spaxels) in size, at spatial scales of 0.235″;, 0.16″, and 0.08″ per spaxel. It employs two 250μm thick, fully depleted, extremely red sensitive 4k X 2k CCD detector arrays (manufactured by LBNL) that provide excellent quantum efficiency out to 1000 nm. We describe the commissioning observations and present the measured values of a number of instrument parameters. We also present some first science results that give a taste of the range of science programs where SWIFT can have a substantial impact. © 2010 Copyright SPIE - The International Society for Optical Engineering.