Extremely Large Telescope

The nature of the relative bias between galaxies of different spectral type in 2dFGRS

(2004)

Authors:

E Conway, S Maddox, V Wild, JA Peacock, E Hawkins, P Norberg, DS Madgwick, IK Baldry, CM Baugh, J Bland-Hawthorn, T Bridges, R Cannon, S Cole, M Colless, C Collins, W Couch, G Dalton, R De Propris, SP Driver, G Efstathiou, RS Ellis, CS Frenk, K Glazebrook, C Jackson, B Jones, O Lahav, I Lewis, S Lumsden, W Percival, BA Peterson, W Sutherland, K Taylor

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

(2004)

Authors:

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

The environments of hyperluminous infrared galaxies at 0.44 < z < 1.55

Monthly Notices of the Royal Astronomical Society 349:2 (2004) 518-526

Authors:

D Farrah, J Geach, M Fox, S Serjeant, S Oliver, A Verma, A Kaviani, M Rowan-Robinson

Abstract:

We present deep wide-field Ks-band observations of six Hyperluminous Infrared Galaxies (HLIRGs) spanning a redshift range 0.44 < z < 1.55. The sample resides in a wide variety of environments, from the field to Abell 2 clusters, with a mean galaxy-HLIRG clustering amplitude of 〈Bgh〉 = 190 ± 45 Mpc1.77. The range in environments, and the mean clustering level, are both greater than those seen in local IR-luminous galaxies, from which we infer that the range of galaxy evolution processes driving IR-luminous galaxy evolution at z > 0.5 is greater than locally, and includes mergers between gas-rich spiral galaxies in the field, but also includes encounters in clusters and hierarchical build-up. The similarity in the range of environments and mean clustering amplitude between our sample and QSOs over a similar redshift range is consistent with the interpretation where evolutionary connections between IR-luminous galaxies and QSOs are stronger at z > 0.5 than locally, and that, at these redshifts, the processes that drive QSO evolution are similar to those that drive IR-luminous galaxy evolution. From comparison of the HLIRG and QSO host galaxies we further postulate that a larger fraction of IR-luminous galaxies pass through an optical QSO stage at z > 0.5 than locally.

SPIFFI Observations of the Starburst SMM J14011+0252:Already Old, Fat, and Rich by z=2.565

Astrophysical Journal 605 (2004) L109-L112

Authors:

M Tecza, Baker, A. J., Davies, R. I., Lehnert, M. D.

Galaxy groups in the 2dFGRS: The group-finding algorithm and the 2PIGG catalogue

Monthly Notices of the Royal Astronomical Society 348:3 (2004) 866-878

Authors:

VR Eke, CM Baugh, S Cole, CS Frenk, P Norberg, JA Peacock, IK Baldry, J Bland-Hawthorn, T Bridges, R Cannon, M Colless, C Collins, W Couch, G Dalton, R De Propris, SP Driver, G Efstathiou, RS Ellis, K Glazebrook, C Jackson, O Lahav, I Lewis, S Lumsden, S Maddox, D Madgwick, BA Peterson, W Sutherland, K Taylor

Abstract:

The construction of a catalogue of galaxy groups from the Two-degree Field Galaxy Red-shift Survey (2dFGRS) is described. Groups are identified by means of a friends-of-friends percolation algorithm which has been thoroughly tested on mock versions of the 2dFGRS generated from cosmological N-body simulations. The tests suggest that the algorithm groups all galaxies that it should be grouping, with an additional 40 per cent of interlopers. About 55 per cent of the ∼190 000 galaxies considered are placed into groups containing at least two members of which ∼29 000 are found. Of these, ∼7000 contain at least four galaxies, and these groups have a median redshift of 0.11 and a median velocity dispersion of 260 km s-1. This 2dFGRS Percolation-Inferred Galaxy Group (2PIGG) catalogue represents the largest available homogeneous sample of galaxy groups. It is publicly available on the World Wide Web.