Galaxy formation and evolution

H-band observations of the Chandra Deep Field South

ASTRONOMY & ASTROPHYSICS 403:2 (2003) 493-499

Authors:

E Moy, P Barmby, D Rigopoulou, JS Huang, SP Willner, GG Fazio

A SAURON View of Galaxies

Lecture Notes in Physics Springer Nature 626 (2003) 279-285

Authors:

Ellen K Verolme, Michele Cappellari, Glenn van de Ven, P Tim de Zeeuw, Roland Bacon, Martin Bureau, Yanick Copin, Roger L Davies, Eric Emsellem, Harald Kuntschner, Richard McDermid, Bryan W Miller, Reynier F Peletier

A SAURON view of galaxies

LECT NOTES PHYS 626 (2003) 279-285

Authors:

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

Abstract:

We have measured the two-dimensional kinematics and line-strength distributions of 72 representative nearby early-type galaxies, out to approximately one effective radius, with our panoramic integral-field spectrograph SAURON. The resulting maps reveal a rich variety in kinematical structures and linestrength distributions, indicating that early-type galaxies are more complex systems than often assumed. We are building detailed dynamical models for these galaxies, to derive their intrinsic shape and dynamical structure, and to determine the mass of the supermassive central black hole. Here we focus on two examples, the compact elliptical M32 and the E3 galaxy NGC4365. These objects represent two extreme cases: M32 has very regular kinematics which can be represented accurately by an axisymmetric model in which all stars rotate around the short axis, while NGC4365 is a triaxial galaxy with a prominent kinematically decoupled core, with an inner core that rotates about an axis that is nearly perpendicular to the rotation axis of the main body of the galaxy. Our dynamical models for these objects demonstrate that two-dimensional observations are essential for deriving the intrinsic orbital structure and dark matter content of galaxies.

Comparing Peanut-Shaped ‘Bulges’to N-Body Simulations and Orbital Calculations

Chapter in The Evolution of Galaxies, Springer Nature (2003) 459-462

Authors:

G Aronica, E Athanassoula, M Bureau, A Bosma, R-J Dettmar, D Vergani, M Pohlen

Cryogenic MOS-Unit for LUCIFER

P SOC PHOTO-OPT INS 4841 (2003) 1295-1305

Authors:

R Hofmann, H Mandel, W Seifert, A Seltmann, N Thatte, D Tomono, H Weisz

Abstract:

We present a system for the exchange and handling of cold field masks in LUCIFER, the near infrared camera and spectrograph for the LBT. Inside the LUCIFER cryostat, 10 field-stop and long-slit masks, and 23 multi-slit masks are stored in a stationary and an exchangeable cabinet respectively. With LUCIFER at operating temperature, the exchangeable cabinet with its multi-slit masks can be transferred from the LUCIFER cryostat to an auxiliary cryostat, and a second cabinet harboring the newly made, pre-cooled masks can be transferred back to LUCIFER from. a second auxiliary cryostat. Inside LUCIFER, a robot transports the individual masks from their storage position in the cabinet to the focal plane, and inserts them in a mask mount where they are centered on two pins. The position accuracy of the masks in the focal plane is anticipated to be better than +/-10 mum. A mechanism which locks the masks in their cabinets and releases only the one connected to the transport robot permits mask exchange in arbitrary orientation of the cryostat.