The Building the Bridge survey for z=3 Ly-alpha emitting galaxies II: Completion of the survey

TL;DR

This survey completes the mapping of faint Ly-alpha emitting galaxies at z~3, revealing a high surface density of faint galaxies that dominate early universe star formation and ionization.

Contribution

The paper presents the final results of a narrow-band imaging survey, confirming the steep faint-end slope of the Ly-alpha luminosity function at z~3.

Findings

Consistent surface density of ~10 Ly-alpha emitters per arcmin^2 per redshift.

About 85% of sources are fainter than R=25.5.

No emission counterparts detected for QSO absorbers.

Abstract

(Abridged). We aim at bridging the gap between absorption selected and emission selected galaxies at z~3 by probing the faint end of the luminosity function of star-forming galaxies at z~3. We have performed narrow-band imaging in three fields with intervening QSO absorbers (a damped Ly$\alpha$ absorber and two Lyman-limit systems) using the VLT. We target Ly-alpha at redshifts 2.85, 3.15 and 3.20. We find a consistent surface density of about 10 Ly-alpha-emitters per square arcmin per unit redshift in all three fields down to our detection limit of about 3x10^41 ergs s^-1. The luminosity function is consistent with what has been found by other surveys at similar redshifts. About 85% of the sources are fainter than the canonical limit of R=25.5 for most Lyman-break galaxy surveys. In none of the three fields do we detect the emission counterparts of the QSO absorbers. In particular we do not detect the counterpart of the z=2.85 damped Ly-alpha absorber towards Q2138-4427. Narrow-band surveys for Ly-alpha emitters are excellent to probe the faint end of the luminosity function at z~3. There is a very high surface density of this class of objects. This is consistent with a very steep slope of the faint end of the luminosity function as has been inferred by other studies. This faint population of galaxies is playing a central role in the early Universe. There is evidence that this population is dominating the integrated star-formation activity, responsible for the bulk of the ionizing photons at z~3 and likely also responsible for the bulk of the enrichment of the intergalactic medium.