Matthias Tecza

First results from SPIFFI, II: The luminous infrared galaxy NGC 6240 and the luminous sub-millimeter galaxy SMMJ 14011+0252

ASTRON NACHR 325:2 (2004) 120-123

Authors:

F Eisenhauer, M Tecza, N Thatte, R Genzel, R Abuter, C Iserlohe, J Schreiber, M Horrobin, A Schegerer, AJ Baker, R Bender, R Davies, M Lehnert, D Lutz, N Nesvadba, S Seitz, LJ Tacconi

Abstract:

This is the second of two papers (I: Horrobin et al. 2003) on the first scientific results from the SPIFFI integral field spectrometer at the VLT. Here we discuss the observations and properties of the prototypical luminous infrared galaxy NGC 6240 and the luminous sub-millimeter galaxy SMMJ 14011+0252. Taking full advantage of the excellent seeing conditions of 0.27", our integral field spectroscopy data allow us for the first time to study in detail the stellar and gas dynamics in NGC 6240 on scales of 125 pc, and to establish a galactic shock as the origin of the strong emission from molecular hydrogen. Our observations of SMMJ 14011+0252 provide us with deep, spatially resolved near infrared spectra of the SCUBA selected luminous submillimeter galaxy at a redshift of z=2.565, revealing a remarkably old, massive and metal-rich starburst galaxy for the early epoch at which it is observed.

On-sky performance of SPIFFI: the integral field spectrometer for SINFONI at the VLT

P SOC PHOTO-OPT INS 5492 (2004) 1123-1134

Authors:

C Iserlohe, M Tecza, F Eisenhauer, R Genzel, N Thatte, R Abuter, MJ Horrobin, A Schegerer, J Schreiber, H Bonnet

Abstract:

SPIFFI (SPectrometer for Infrared Faint Field Imaging) is a fully cryogenic, near-infrared imaging spectrograph built at the Max-Planck-Institute for Extraterrestrial Physics (MPE) and upgraded with a new detector and spectrograph camera by ASTRON/NOVA, ESO and MPE. The upgraded instrument will become a facility instrument for the ESO VLT in summer 2004 as part of the SINFONI (SINgle Faint Object Near-IR Investigation) project, which is the combination of SPIFFI and ESOs adaptive optics module MACAO (Multiple Application Curvature Adaptive Optics), at the Cassegrain focus of Yepun (UT4). In spring 2003 we had the opportunity to observe with SPIFFI as a guest instrument without the AO-module at the Cassegrain focus of UT2 of the VLT. In this paper we discuss the performance of SPIFFI during the guest-instrument phase. First we summarize the technical performance of SPIFFI like the spatial and spectral resolution, the detector performance and the instruments throughput. Afterwards we illustrate the power of integral field spectroscopy by presenting data and results of the Galactic Center.

SPIFFI observations of the starburst SMM J14011+0252: Already old, fat, and rich by z=2.565

ASTROPHYSICAL JOURNAL 605:2 (2004) 109-112

Authors:

M Tecza, AJ Baker, RI Davies, R Genzel, MD Lehnert, F Eisenhauer, D Lutz, N Nesvadba, S Seitz, LJ Tacconi, NA Thatte, R Abuter, R Bender

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.

SPIFFI image slicer: High-precision optics at cryogenic temperatures

P SOC PHOTO-OPT INS 4842 (2003) 375-383

Authors:

M Tecza, F Eisenhauer, C Iserlohe, N Thatte, R Abuter, C Rohrle, J Schreiber

Abstract:

SPIFFI is the near-infrared integral field spectrograph of the SINFONI VLT instrument. SPIFFI uses an image slicer with plane mirrors as its integral field unit. The integral field unit consists of two stacks of mirrors, each with 32 mirrors, rearranging a two-dimensional field-of-view of 32 x 32 pixels into a one-dimensional pseudo slit, which is fed into a long-slit spectrograph. The image slicer is constructed solely, from Zerodur and is operated at a cryogenic temperature of 77 Kelvin. Only optical contacting is used for the assembly of the individual slicer mirrors and the image slicer on its base-plate. The special slicer mount holds the image slicer stress-free and compensates for the different thermal coefficients of expansion of the Zerodur image slicer and the Aluminium mount. Tests at room and cryogenic temperatures show the performance of the image slicer, the durability of the optical contacting technique, and the accuracy of the slicer mount.