Beecroft Institute for Particle Astrophysics and Cosmology

Large Scale Structure in Bekenstein's theory of relativistic Modified Newtonian Dynamics

(2005)

Authors:

C Skordis, DF Mota, PG Ferreira, C Boehm

The 2dF QSO Redshift Survey - III. The input catalogue

Monthly Notices of the Royal Astronomical Society 359:1 (2005) 57-72

Authors:

RJ Smith, SM Croom, BJ Boyle, T Shanks, L Miller, NS Loaring

Abstract:

The 2dF QSO Redshift Survey (2QZ) has obtained redshifts for in excess of 23 000 QSOs selected by their u′, bJ, r colours using the 2-degree Field (2dF) facility at the Anglo-Australian Telescope (AAT). In this paper, we describe the creation of the input catalogue from UK Schmidt photographic plates. All the plate materials used are described along with the techniques developed for flat-fielding variations in the photometric response of photographic emulsions. The selection criteria used for the survey are defined and their rationale discussed. Finally, several simple astrometric and photometric tests are performed. These demonstrate that, over the majority of the parameter space covered by this survey (18.25

The 2dF-SDSS LRG and QSO Survey: The z<2.1 Quasar Luminosity Function from 5645 Quasars to g=21.85

ArXiv astro-ph/0504300 (2005)

Authors:

GT Richards, SM Croom, SF Anderson, J Bland-Hawthorn, BJ Boyle, R De Propris, MJ Drinkwater, X Fan, JE Gunn, Z Ivezic, S Jester, J Loveday, A Meiksin, L Miller, A Myers, RC Nichol, PJ Outram, KA Pimbblet, IG Roseboom, N Ross, DP Schneider, T Shanks, RG Sharp, C Stoughton, MA Strauss, AS Szalay, DE Vanden Berk, DG York

Abstract:

We have used the 2dF instrument on the AAT to obtain redshifts of a sample of z<3, 18.021 deep surveys. The 2SLAQ data exhibit no well defined ``break'' but do clearly flatten with increasing magnitude. The shape of the quasar luminosity function derived from 2SLAQ is in good agreement with that derived from type I quasars found in hard X-ray surveys. [Abridged]

Hot Cores : Probes of High-Redshift Galaxies

ArXiv astro-ph/0504040 (2005)

Authors:

CJ Lintott, S Viti, DA Williams, JMC Rawlings, I Ferreras

Abstract:

The very high rates of second generation star formation detected and inferred in high redshift objects should be accompanied by intense millimetre-wave emission from hot core molecules. We calculate the molecular abundances likely to arise in hot cores associated with massive star formation at high redshift, using several independent models of metallicity in the early Universe. If the number of hot cores exceeds that in the Milky Way Galaxy by a factor of at least one thousand, then a wide range of molecules in high redshift hot cores should have detectable emission. It should be possible to distinguish between independent models for the production of metals and hence hot core molecules should be useful probes of star formation at high redshift.

GALICS -- VI. Modelling Hierarchical Galaxy Formation in Clusters

ArXiv astro-ph/0502490 (2005)

Authors:

B Lanzoni, B Guiderdoni, GA Mamon, J Devriendt, S Hatton

Abstract:

High-resolution N-body re-simulations of 15 massive (10^{14}-10^{15} Msun) dark matter haloes have been combined with the hybrid galaxy formation model GalICS (Hatton et al. 2003), to study the formation and evolution of galaxies in clusters, within the framework of the hierarchical merging scenario. New features in GalICS include a better description of galaxy positioning within dark matter haloes, a more reliable computation of the temperature of the inter-galactic medium as a function of redshift, and a description of the ram pressure stripping process. We focus on the luminosity functions, morphological fractions and colour distributions of galaxies in clusters and in cluster outskirts, at z=0. No systematic dependency on cluster richness is found either for the galaxy luminosity functions, morphological mixes, or colour distributions. Moving from higher density (cluster cores), to lower density environments (cluster outskirts), we detect a progressive flattening of the luminosity functions, an increase of the fraction of spirals and a decrease of that of ellipticals and S0s, and the progressive emergence of a bluer tail in the distributions of galaxy colours, especially for spirals. As compared to cluster spirals, early-type galaxies show a flatter luminosity function, and more homogeneous and redder colours. An overall good agreement is found between our results and the observations, particularly in terms of the cluster luminosity functions and morphological mixes. However, some discrepancies are also apparent, with too faint magnitudes of the brightest cluster members, especially in the B band, and galaxy colours tendentially too red (or not blue enough) in the model, with respect to the observations. Finally, ram pressure stripping appears to affect very little our results.