Professor Roger Davies

NOAO Fundamental Plane Survey. I. Survey design, redshifts, and velocity dispersion data

Astronomical Journal 128:4 (2004) 1558-1569

Authors:

RJ Smith, MJ Hudson, JE Nelan, SAW Moore, SJ Quinney, GA Wegner, JR Lucey, RL Davies, JJ Malecki, D Schade, NB Suntzeff

Abstract:

We introduce the NOAO Fundamental Plane Survey (NFPS), a wide-field imaging/spectroscopic study of rich, low-redshift galaxy clusters. The survey targets X-ray-selected clusters at 0.010 < z < 0.067, distributed over the whole sky, with imaging and spectroscopic observations obtained for 93 clusters. This data set will be used in investigations of galaxy properties in the cluster environment and of large-scale velocity fields through the fundamental plane. In this paper, we present details of the cluster sample construction and the strategies employed to select early-type galaxy samples for spectroscopy. Details of the spectroscopic observations are reported. From observations of 5479 red galaxies, we present redshift measurements for 5388 objects and internal velocity dispersions for 4131. The velocity dispersions have a median estimated error ∼7%. The NFPS has ∼15% overlap with previously published velocity dispersion data sets. Comparisons to these external catalogs are presented and indicate typical external errors of ∼8%.

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

The SAURON project - III. Integral-field absorption-line kinematics of 48 elliptical and lenticular galaxies

Monthly Notices of the Royal Astronomical Society 352:3 (2004) 721-743

Authors:

E Emsellem, M Cappellari, RF Peletier, RM McDermid, R Bacon, M Bureau, Y Copin, RL Davies, D Krajnović, H Kuntschner, BW Miller, PT De Zeeuw

Abstract:

We present the stellar kinematics of 48 representative elliptical and lenticular galaxies obtained with our custom-built integral-field spectrograph SAURON operating on the William Herschel Telescope. The data were homogeneously processed through a dedicated reduction and analysis pipeline. All resulting SAURON data cubes were spatially binned to a constant minimum signal-to-noise ratio. We have measured the stellar kinematics with an optimized (penalized pixel-fitting) routine which fits the spectra in pixel space, via the use of optimal templates, and prevents the presence of emission lines to affect the measurements. We have thus generated maps of the mean stellar velocity V, the velocity dispersion σ, and the Gauss-Hermite moments h3 and h4 of the line-of-sight velocity distributions. The maps extend to approximately one effective radius. Many objects display kinematic twists, kinematically decoupled components, central stellar discs, and other peculiarities, the nature of which will be discussed in future papers of this series.

Deep SAURON spectral imaging of the diffuse Lyman α halo LAB1 in SSA 22

Monthly Notices of the Royal Astronomical Society 351:1 (2004) 63-69

Authors:

RG Bower, SL Morris, R Bacon, RJ Wilman, M Sullivan, S Chapman, RL Davies, PT De Zeeuw, E Emsellem

Abstract:

We have used the SAURON panoramic integral field spectrograph to study the structure of the Lyα emission-line halo, LAB1, surrounding the submillimetre galaxy SMM J221726+0013. This emission-line halo was discovered during a narrow-band imaging survey of the z = 3.1 large-scale structure in the SSA 22 region. Our observations trace the emission halo out to almost 100 kpc from the submillimetre source and identify two distinct Lyα 'mini-haloes' around the nearby Lyman-break galaxies. The main emission region has a broad line profile, with variations in the line profile seeming chaotic and lacking evidence for a coherent velocity structure. The data also suggest that Lyα emission is suppressed around the submillimetre source. Interpretation of the line structure needs care because Lyα may be resonantly scattered, leading to complex radiative transfer effects, and we suggest that the suppression in this region arises because of such effects. We compare the structure of the central emission-line halo with local counterparts, and find that the emission-line halo around NGC 1275 in the Perseus cluster may be a good local analogue, although the high-redshift halo is factor of ∼ 100 more luminous and appears to have higher velocity broadening. Around the Lyman-break galaxy C15, the emission line is narrower, and a clear shear in the emission wavelength is seen. A plausible explanation for the line profile is that the emission gas is expelled from C15 in a bipolar outflow, similar to that seen in M82.