A VLT/FORS2 view at z6: Lyman-α emitter fraction and galaxy physical properties at the edge of the epoch of cosmic reionization

Abstract

The fraction of Lyman-α emitters among the galaxy population has been found to increase from z0 to z6 and drop dramatically at z>6. This drop has been interpreted as an effect of an increasingly neutral intergalactic medium with increasing redshift, while a LyC escape fraction evolving with redshift. We report the result of a large VLT/FORS2 program aiming to confirm spectroscopically a large galaxy sample at z≥6 that has been selected in several independent fields through the Lyman Break technique. Combining those data with archival data, we create a large and homogeneous sample of z6 galaxies (N=127), complete in terms of Lyα detection at >95\% for EW(Lyα)≥25. We use this sample to derive a new measurement of the LAE fraction at z6 and derive the physical properties of these galaxies through spectral energy distribution fitting. We find a median LAE fraction at z6 lower than in previous studies. The main difference between LAEs and non-LAEs is that the latter are significantly dustier. Using predictions of our SED fitting code accounting for nebular emission, we find an effective Lyα escape fraction feffesc(Lyα)=0.23+0.36-0.17 remarkably consistent with the value derived by comparing UV luminosity function with Lyα luminosity function. We conclude that the drop in the LAE fraction from z6 to z>6 is less dramatic than previously found and the effect of an increasing IGM neutral fraction is possibly observed at 5<z<6. Based on our derived feffesc(Lyα), we find that the IGM has a relatively small impact on Lyα photon visibility at z6, with a lower limit for the IGM transmission to \ photons, TIGM0.20, likely due to the presence of outflows. [abdridged]