3D - A new generation imaging spectrometer

P SOC PHOTO-OPT INS 2871 (1997) 1179-1186

Authors:

A Krabbe, N Thatte, H Kroker, LE TacconiGarman, M Tecza

Abstract:

3D is a new type of a highly sensitive near-infrared integral field spectrometer developed at MPE. It has been designed to multiplex spectral as well as spatial information thus obtaining a full data cube in a single integration. At a spectral resolution between 1000 and 2000 and a field of view of 16 x 16 pixels, optimized for subarcsecond spatial resolution imaging spectroscopy, it has a much higher efficiency compared to conventional techniques. Outfitting one of the VLTs with a near-IR 3D type instrument will provide a powerful tool for diffraction-limited integral field spectroscopic research, in particular on faint high-z galaxies in the early universe. The basic design, recent upgrades as well as plans for a possible VLT-3D instrument are presented.

Diagnostics of dust obscured galactic nuclei with ISO spectroscopy

ASTROPHYS SPACE SC L 212 (1997) 341-344

Abstract:

Soon after the IRAS mission, the first ever mission in exploring the Infrared world from space, it was realised that there exists a great number of galaxy populations that are extremely luminous at infrared wavelengths. Yet, their optical output was significantly smaller when compared to their infrared one. The enormous amounts of dust present in these galaxies is of course the reason for the different appearence of these galaxies at different wavelengths. And although optical spectroscopy is generally a useful tool, it can not provide much inside on these galactic nuclei as their centers suffer high extinctions. However, infrared spectroscopy although difficult to be performed from the ground, is the ideal tool for probing the obscured nuclei of galaxies. The Infrared Space Observatory (ISO) provides the best opportunity to probe these obscured nuclei, and even more, promises to open up our view of the infrared world.

Extragalactic spectroscopy with the infrared space observatory

REV MEX AST ASTR 6 (1997) 70-74

Authors:

R Genzel, D Lutz, E Egami, D Kunze, D Rigopoulou, E Sturm, AFM Moorwood, T DeGraauw, A Sternberg

Abstract:

The Infrared Space Observatory is opening the 2.5 to 200 mu m band for detailed studies of galaxies. Based an the first results on ionic emission lines obtained with the Short-Wavelength-Spectrometer me discuss the nature of ultra-luminous IR, galaxies.

GMOS: The GEMINI multiple object spectrographs

OPTICAL TELESCOPES OF TODAY AND TOMORROW: FOLLOWING IN THE DIRECTION OF TYCHO BRAHE 2871 (1997) 1099-1106

Authors:

RL Davies, JR AllingtonSmith, P Bettess, E Chadwick, R Content, G Dodsworth, R Haynes, D Lee, I Lewis, J Webster, E Atad, S Beard, M Ellis, P Hastings, P Williams, T Bond, D Crampton, T Davidge, M Fletcher, B Leckie, C Morbey, R Murowinski, S Roberts, L Saddlemyer, J Sebesta, J Stilburn, K Szeto

High-resolution near-infrared observations of NGC 1068

ASTROPHYS SPACE SCI 248:1-2 (1997) 295-300

Authors:

A Quirrenbach, A Eckart, N Thatte

Abstract:

We present near-infrared observations of NGC 1068 obtained with the SHARP camera at the ESO 3.5 m telescope, and with SHARP II attached to the COME-ONS adaptive optics system at the ESO 3.6 m telescope. From the SHARP observations we obtain a K band image of the stellar bar with O.'' 4 resolution, and an upper limit to the sire of the nuclear K band source of 0.'' 05 (3.5 pc). The adaptive optics observations are used to determine the position of the infrared nucleus with respect to the visible continuum. The centroid of the 5000 to 9000 Angstrom continuum is displaced 0.'' 23 +/- 0.'' 10 to the east and 0.'' 41 +/- 0.'' 10 to the north of the K band peak.