Volume 505, Number 3, October III 2009
|Page(s)||1007 - 1016|
|Section||Cosmology (including clusters of galaxies)|
|Published online||18 August 2009|
Uncovering strong MgII absorbing galaxies*
Imaging below the Lyman limit
European Southern Observatory, Karl-Schwarzschild-Strasse 2, 85748 Garching, Germany e-mail: firstname.lastname@example.org
2 Inter-University Centre for Astronomy and Astrophysics, Post Bag 4, Ganeshkhind, 411007 Pune, India e-mail: email@example.com
3 UPMC Paris 6, Institut d'Astrophysique de Paris, UMR7095 CNRS, 98bis Bd Arago, 75014 Paris, France e-mail: firstname.lastname@example.org
4 European Southern Observatory, Alonso de Córdova 3107, Casilla 19001, Vitacura, Santiago 19, Chile e-mail: email@example.com
5 Dark Cosmology Centre, Niels Bohr Institute, University of Copenhagen, Juliane Maries Vej 30, 2100 Copenhagen Ø, Denmark e-mail: firstname.lastname@example.org
Accepted: 8 August 2009
Context. The nature of the galaxies that give rise to absorption lines, such as damped Lyman-α systems (DLAs) or strong Mg ii lines, in quasar spectra is difficult to investigate in emission. These galaxies can be very faint and located close to the lines of sight of the much brighter background quasars.
Aims. Taking advantage of the total absorption of the QSO light bluewards of the Lyman limit of two DLAs at , we look for the continuum emission from intervening galaxies at z ≈ 2 that are identified via strong metal absorption lines. The Mg ii absorbers have equivalent width large enough to be potential DLA systems.
Methods. Deep images are obtained with the FOcal Reducer and Spectrograph (FORS1) on the Very Large Telescope for the fields towards SDSS J110855+120953 and SDSS J140850+020522. These quasars have Mg ii absorption lines at (Wr(Mg ii) = 2.46 Å) and (Wr(Mg ii) = 1.89 Å), respectively, and each QSO has two intervening higher redshift DLAs at . The U and R bands of FORS1 lie blue and redwards of the Lyman limit of the background DLAs, allowing us to search for emission from the foreground galaxies directly along the lines of sight to the QSOs.
Results. No galaxies are found close to the sight line of the QSO to a point source limit of ~ 28.0. In both fields, the closest objects lie at an impact parameter of ~5´´ corresponding to ~40 kpc in projection at , and have typical colours of star forming galaxies at that redshift. However, the currently available data do not allow us to confirm if the galaxies lie at the same redshifts as the absorption systems. A more extended structure is visible in the SDSS J14085+020522 field at an impact parameter of 08 or 7 kpc. If these objects are at z ≈ 2 their luminosities are 0.03–0.04 L* in both fields. The star formation rates estimated from the UV flux are 0.5–0.6 yr-1, while the SFRs are half these values if the U band flux is due to Lyα emission alone.
Conclusions. The non-detection of galaxies near to the line of sight is most likely explained by low metallicities and luminosities of the Mg ii galaxies. Alternatively, the Mg ii clouds are part of extended halos or in outflows from low-metallicity galaxies.
Key words: cosmology: observations / galaxies: high-redshift / quasars: absorption lines / quasars: individual: SDSS J110855.46+120953.3 / quasars: individual: SDSS J140850.91+020522.7
© ESO, 2009
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