Multi-object spectroscopy of low-redshift EIS clusters

Free access article

Issue		A&A Volume 490, Number 3, November II 2008


Page(s)		945 - 963
Section		Cosmology (including clusters of galaxies)
DOI		http://dx.doi.org/10.1051/0004-6361:20066830
Published online		01 October 2008

A&A 490, 945-963 (2008)
DOI: 10.1051/0004-6361:20066830

IV. Reliability of matched-filter results at $\textit z \sim$ 0.3–0.4

L. F. Grove¹, L. da Costa², and C. Benoist³

¹ Dark Cosmology Centre, Niels Bohr Institute, University of Copenhagen, Juliane Maries Vej 30, 2100 Copenhagen, Denmark
e-mail: lisbeth@dark-cosmology.dk
² Observatório Nacional, Rua Gen. José Cristino 77, Rio de Janeiro, R.J., Brazil
³ Laboratoire Cassiopée, CNRS, UMR 6202, Observatoire de la Côte d'Azur, BP 4229, 06304 Nice Cedex 4, France

Received 28 November 2006 / Accepted 16 September 2008

Abstract
This paper is the last in a series investigating low-redshift galaxy systems identified by the matched-filter technique in a moderately deep I-band survey. In this paper we present new redshifts for 747 galaxies in 23 ESO Imaging Survey (EIS) cluster fields. We use the “gap”-technique to search for significant overdensities in redshift space for identifying groups/clusters of galaxies corresponding to the original EIS matched-filter cluster candidates. In this way we spectroscopically confirm systems in 10 of the 23 cluster candidate fields with a matched-filter estimated redshift $z_{\rm MF}=0.3$ –0.4 and with spectroscopic redshifts in the range from z=0.158 to z=0.534, with the observations favouring the confirmation of systems at the lower redshift end. After careful analysis of the redshift distribution, one system was split into two very close clumps in redshift space. We find that the systems identified in the present paper span a broad range of velocity dispersion and richness. The measured one-dimensional velocity dispersion range from 175 km s^-1 to 497 km s^-1, consistent with the values obtained in previous papers using much larger samples for systems over the same redshift range. Both undersampling and contamination by substructures contribute to the uncertainty of these measurements. The richness range corresponds to clusters with an estimated total luminosity in the range 12 L^*<L<65 L^*, but these estimates are very uncertain as are their relation to the velocity dispersion (mass) of the systems. From the analysis of the colours of the galaxy populations we find that ~60% of the spectroscopically confirmed systems have a “significant” red sequence. We find that the colour of the red sequence galaxies matches passive stellar evolution predictions. With this paper we complete our spectroscopic survey of the fields of 58 EIS cluster candidates with estimated redshifts $z_{\rm MF}\leq0.4$ . We have measured a total of 1954 galaxy redshifts in the range z=0.0065 to z=0.6706. Of the 58 systems we confirm 42 (~75%) with redshifts between z=0.095 and z=0.534.

Key words: galaxies: clusters: general -- cosmology: observations -- galaxies: distances and redshifts -- galaxies: photometry

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