Extremely Large Telescope

LUCIFER: a multi-mode NIR instrument for the LBT

P SOC PHOTO-OPT INS 4841 (2003) 962-973

Authors:

W Seifert, I Appenzeller, H Baumeister, P Bizenberger, D Bomans, RJ Dettmar, B Grimm, T Herbst, R Hofmann, M Jutte, W Laun, M Lehmitz, R Lemke, R Lenzen, H Mandel, K Polsterer, RR Rohloff, A Schutze, A Seltmann, N Thatte, P Weiser, W Xu

Abstract:

LUCIFER (LBT NIR-Spectroscopic Utility with Camera and Integral-Field Unit for Extragalactic Research) is a NIR spectrograph and imager for the Large Binocular Telescope (LBT) on Mt. Graham, Arizona. It is built by a consortium of five German institutes and will be one of the first light instruments for the LBT. Later, a second copy for the second mirror of the telescope will follow. Both instruments will be mounted at the bent Gregorian foci of the two individual telescope mirrors. The final design of the instrument is presently in progress.LUCIFER will work at cryogenic temperature in the wavelength range from 0.9 mum to 2.5 mum. It is equipped with three exchangeable cameras for imaging and spectroscopy: two of them are optimized for seeing-limited conditions, the third camera for the diffraction-limited case with the LBT adaptive secondary mirror working. The spectral resolution will allow for OH suppression. Up to 33 exchangeable masks will be available for longslit and multi-object spectroscopy (MOS) over the full field of view (FOV). The detector will be a Rockwell HAWAII-2 HgCdTe-array.

Observations of faint galaxies with adaptive optics

P SOC PHOTO-OPT INS 4834 (2003) 302-309

Authors:

R Davies, M Lehnert, AJ Baker, N Thatte, A Renzini, D Bonaccini

Abstract:

Encouraged by imaging of faint galaxies around bright stars using ALFA on the 3.5-m telescope at Calar Alto, we have begun a survey to identify a large number of candidate sources near bright stars. In this contribution we report the status of this survey and show our preliminary results from deep imaging around one of these stars during the early phases of CONICA and NAOS on the 8.2-m VLT. We outline the exciting prospects for this type of work in terms of number counts, morphology, and rotation curve analyses.

Optical identification of the ASCA Lynx Deep Survey:: An association of quasi-stellar objects and a supercluster at z=1.3?

ASTROPHYSICAL JOURNAL 598:1 (2003) 210-215

Authors:

K Ohta, M Akiyama, Y Ueda, T Yamada, K Nakanishi, GB Dalton, Y Ogasaka, T Kii, K Hayashida

SAURON: Observations of E/S0/SA galaxies

REV MEX AST ASTR 17 (2003) 199-199

Authors:

H Kuntschner, R Bacon, M Bureau, M Cappellari, Y Copin, RL Davies, E Emsellem, BW Miller, R McDermid, RF Peletier, EK Verolme, PT de Zeeuw

Abstract:

We present results from a new and unique integral-field spectrograph, SAURON. It has a large field of view and high throughput and is primarily built for the study of stellar & gaseous kinematics and stellar populations in galaxies. Its aim is to carry out a systematic survey of the velocity fields, velocity dispersions, and line-strength distributions of nearby ellipticals, lenticular galaxies and spiral bulges.

SINFONI - Integral field spectroscopy at 50 niilli-arcsecond resolution with the ESO VLT

P SOC PHOTO-OPT INS 4841 (2003) 1548-1561

Authors:

F Eisenhauer, H Bonnet, R Abuter, K Bickert, F Bianca-Marchet, J Brynnel, R Conzelmann, B Delabre, R Donaldson, J Farinto, E Fedrigo, G Finger, R Genzel, N Hubin, C Iserlohe, M Kasper, M Kissler-Patig, G Monnet, C Rohrle, J Schreiber, S Stefan, M Tecza, N Thatte, H Weisz

Abstract:

SINFONI is an adaptive optics assisted near-infrared integral field spectrometer for the ESO VLT. The Adaptive Optics Module (built by the ESO Adaptive Optics Group) is a 60-elements curvature-sensor based system, designed for operations with natural or sodium laser guide stars. The near-infrared integral field spectrometer SPIFFI (built by the Infrared Group of MPE) provides simultaneous spectroscopy of 32 x 32 spatial pixels, and a spectral resolving power of up to 3300. The adaptive optics module is in the phase of integration; the spectrometer is presently tested in the laboratory. We provide an overview of the project, with particular emphasis on the problems encountered in designing and building an adaptive optics assisted spectrometer.