Optomechanical design of the MUSE spectrograph structure

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 5492 (2004) 429-432

Authors:

Ian J Lewis, James Lynn, Stephanie Yang, Lau, Roger L Davies

The second-generation VLT instrument MUSE: science drivers and instrument design

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 5492 (2004) 1145-1149

Authors:

Roland Bacon, Svend-Marian Bauer, Richard Bower, Sylvie Cabrit, Michele Cappellari, Marcella Carollo, Francoise Combes, Roger L Davies, Bernard Delabre, Hans Dekker, Julien Devriendt, Slimane Djidel, Michel Duchateau, Jean-Pierre Dubois, Eric Emsellem, Pierre Ferruit, Marijn Franx, Gerard F Gilmore, Bruno Guiderdoni, Francois Henault, Norbert Hubin, Bruno Jungwiert, Andreas Kelz, Miska Le Louarn, Ian J Lewis, Jean-Louis Lizon, Richard McDermid, Simon L Morris, Uwe Laux, Olivier Le Fˆvre, Blandine Lantz, Simon Lilly, James Lynn, Luca Pasquini, Arlette Pecontal, Patrick Pinet, Dan Popovic, Andreas Quirrenbach, Roland Reiss, Martin M Roth, Matthias Steinmetz, Remko Stuik, Luc Wisotzki, P Tim de Zeeuw

A Search for Short Time‐Scale Optical Variability in the GRB 030329 Afterglow

AIP Conference Proceedings AIP Publishing 727:1 (2004) 337-338

Authors:

N Mirabal, JP Halpern, M Bureau, K Fathi

Can Virialization Shocks be Detected Around Galaxy Clusters Through the Sunyaev-Zel'dovich Effect?

(2004)

Authors:

Bence Kocsis, Zoltan Haiman, Zsolt Frei

Mapping stationary axisymmetric phase-space distribution functions by orbit libraries

Monthly Notices of the Royal Astronomical Society 353:2 (2004) 391-404

Authors:

J Thomas, RP Saglia, R Bender, D Thomas, K Gebhardt, J Magorrian, D Richstone

Abstract:

This is the first of a series of papers dedicated to unveiling the mass composition and dynamical structure of a sample of flattened early-type galaxies in the Coma cluster. We describe our modifications to the Schwarzschild code of Richstone et al. Applying a Voronoi tessellation in the surface of section, we are able to assign accurate phase-space volumes to individual orbits and to reconstruct the full three-integral phase-space distribution function (DF) of any axisymmetric orbit library. Two types of tests have been performed to check the accuracy with which DFs can be represented by appropriate orbit libraries. First, by mapping DFs of spherical γ-models and flattened Plummer models onto the library, we show that the resulting line-of-sight velocity distributions and internal velocity moments of the library match those derived directly from the DF to a precision better than that of present-day observational errors. Secondly, by fitting libraries to the projected kinematics of the same DFs, we show that the DF reconstructed from the fitted library matches the input DF to a rms of about 15 per cent over a region in phase space covering 90 per cent of the mass of the library. The accuracy achieved allows us to implement effective entropy-based regularization to fit real, noisy and spatially incomplete data.