Christoph Frank scite author profile

Abstract. We have designed and built theéchelle spectrograph FOCES fed by 100 µm optical fibres to be mounted at the Cassegrain focus of either the 2.2 m or the 3.5 m telescope at the Calar Alto Observatory. The spectrograph itself follows a white-pupil design collimated with two off-axis parabolic mirrors. The 15 cm beam leaving the 31.6 lines/mm R2échelle is refocussed in the vicinity of a small folding mirror which allows efficient removal of scattered light. The cross-dispersion is achieved with a tandem prism mounting, and the beam imaged with an f/3 transmission camera onto a field centered on a 1024 2 thinned Tektronix CCD with 24 µm pixel diameter. Thé echelle image covers the visible spectral region from 380 to 750 nm displayed in 70 spectral orders with full spectral coverage. Spectral orders are separated by 20 pixels in the blue and by 10 pixels in the red. The maximum spectral resolution is R = λ/∆λ = 40600 with a 2 pixel resolution element; unvignetted resolution as defined by the fibre alone would be obtained at R = 18000. Replacing the CCD by a 2048 2 chip with 15 µm pixel diameter and taking into account light losses from a reduced entrance slit width a full 2 pixel resolution of R = 65000 is obtained.The above concept has made FOCES an extremely well-defined instrument. A number of successful test installations at the Cassegrain foci of the Wendelstein 80 cm telescope, the Calar Alto 2.2 m and 3.5 m telescopes has produced spectra of high quality for up to 60 min exposures. The limiting magnitude for a 1 hr exposure with an S/N ratio of 100 scales to V = 12 for a 3.5 m telescope which is only slightly less than expected from laboratory tests. In an alternative mode FOCES offers a second fibre carrying the sky background signal to correct extremely faint object spectra. This mode obtains the required higher cross-dispersion from an additional grism resulting in a correspondingly reduced spectral coverage.Send offprint requests to: M. Pfeiffer (also download from

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MAD On-Sky Results in Star Oriented Mode

Marchetti

Brast

Délabre

et al. 2007

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MAD on sky results in star oriented mode

Marchetti

Brast

Délabre

et al. 2008

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MAD: practical implementation of MCAO concepts

Marchetti

Brast

Délabre

et al. 2005

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The European Southern Observatory (ESO) together with external research institutes have built a Multi-Conjugate Adaptive Optics (MCAO) Demonstrator (MAD) to perform wide field-of-view adaptive optics correction (2 in K band). The aim of MAD is to demonstrate the on-sky feasibility of the MCAO technique and to evaluate its critical aspects in the framework of both the 2nd generation instrumentation for the Very Large Telescope (VLT) and the Overwhelmingly Large Telescope (OWL). The MAD module will be installed on the VLT to perform on-sky observations. MAD comprises two deformable mirrors and two different multi-reference wavefront sensors with natural guide stars. In this article we present the MAD design, some aspects of the MAD calibration and the first closed-loop results in the laboratory in Single Conjugated Adaptive Optics (SCAO) and Ground Layer Adaptive Optics (GLAO) configurations. To cite this article: E.

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Active Phasing Experiment: preliminary results and prospects

Gonté¹,

Araujo²,

Bourtembourg³

et al. 2008

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Christoph Frank

FOCES - a fibre optics Cassegrain échelle spectrograph

MAD On-Sky Results in Star Oriented Mode

MAD on sky results in star oriented mode

MAD: practical implementation of MCAO concepts

Active Phasing Experiment: preliminary results and prospects

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