Extremely Large Telescope

Design of the KMOS multi-object integral field spectrograph

Proceedings of SPIE - The International Society for Optical Engineering 6269 I (2006)

Authors:

R Sharples, R Bender, R Bennett, K Burch, P Carter, M Casali, P Clark, R Content, R Davies, R Davies, M Dubbeldam, G Finger, R Genzel, R Haefner, A Hess, M Kissler-Patig, K Laidlaw, M Lehnert, I Lewis, A Moorwood, B Muschielok, NF Schreiber, J Pirard, SR Howat, P Rees, J Richter, D Robertson, I Robson, R Saglia, M Tecza, N Thatte, S Todd, M Wegner

Abstract:

KMOS is a near-infrared multi-object integral field spectrometer which has been selected as one of a suite of second-generation instruments to be constructed for the ESO VLT in Chile. The instrument will be built by a consortium of UK and German institutes working in partnership with ESO and is currently at the end of its preliminary design phase. We present the design status of KMOS and discuss the most novel technical aspects and the compliance with the technical specification.

FMOS: The fiber multiple-object spectrograph IV: Current status of OHS-based spectrograph

Proceedings of SPIE - The International Society for Optical Engineering 6269 I (2006)

Authors:

F Iwamuro, T Maihara, K Ohta, S Eto, M Sakai, M Akiyama, M Kimura, N Tamura, J Noumaru, H Karoji, GB Dolton, IJ Lewis, IAJ Tosh, GJ Murray, NA Dipper, DJ Robertoson, PR Gillingham, S Smedley, GA Smith, G Frost

Abstract:

The Fiber Multiple-Object Spectrograph for Subaru Telescope (FMOS) is quite large instrument composed of the prime focus unit, the fiber bundle unit, and the two infrared spectrographs. Among these units, a part of the prime focus unit and one of the spectrograph were transported from Kyoto University to the Subaru observatory in the middle of 2005. We present the optical and the mechanical components of the spectrograph, which was reassembled on the new floor of the Subaru dome. We also show the preliminary results of the optical alignment and the cooling test of the instrument at the summit of Mauna Kea.

Opto-mechanical design of the KMOS spectrograph module

Proceedings of SPIE - The International Society for Optical Engineering 6269 III (2006)

Authors:

M Tecza, IJ Lewis, J Lynn, S Yang, NA Thatte, IAJ Tosh, MJ Ferlet

Abstract:

We present the optical and mechanical design of the KMOS spectrograph module together with a detailed analysis of its performance. KMOS is a cryogenic near-infrared multi-object spectrograph being developed as a second-generation instrument for the VLT by a consortium of UK and German institutes. Three identical spectrograph modules provide Nyquist sampled spectra in the wavelength range covering the atmospheric bands z, J, H, and K with a resolving power exceeding 3200. The spectrographs are fully achromatic over the bands and the single mirror collimator and six-element camera, together with six high efficiency gratings provide high throughput. The optical performance analysis includes amongst others the spectral resolving power and variation of the PSF as a function of the pupil illumination.

The UK FMOS spectrograph

Proceedings of SPIE - The International Society for Optical Engineering 6269 II (2006)

Authors:

GB Dalton, IJ Lewis, DG Bonfield, AR Holmes, CB Brooks, H Lee, IAJ Tosh, TR Froud, M Patel, NA Dipper, C Blackburn

Abstract:

We describe the build phase of the UK FMOS spectrograph, a 200 fibre cooled OH Suppression infrared spectrograph being constructed as part of Subaru's Fibre Multi Object Spectroscopy facility. Here we describe recent UK activities within the FMOS programme and the likely schedule for commissioning at Subaru.

The VISTA infrared camera

Proceedings of SPIE - The International Society for Optical Engineering 6269 I (2006)

Authors:

GB Dalton, M Caldwell, AK Ward, MS Whalley, G Woodhouse, RL Edeson, P Clark, SM Beard, AM Gallie, SP Todd, JMD Strachan, NN Bezawada, WJ Sutherland, JP Emerson

Abstract:

We describe the integration and test phase of the construction of the VISTA Infrared Camera, a 64 Megapixel, 1.65 degree field of view 0.9-2.4 micron camera which will soon be operating at the cassegrain focus of the 4m VISTA telescope. The camera incorporates sixteen IR detectors and six CCD detectors which are used to provide autoguiding and wavefront sensing information to the VISTA telescope control system.