Optical Line Emission from z6.8 Sources with Deep Constraints on Lyα Visibility

Abstract

We analyze a sample of z-dropout galaxies in the CANDELS GOODS South and UDS fields that have been targeted by a dedicated spectroscopic campaign aimed at detecting their Lyα line. Deep IRAC observations at 3.6 and 4.5 μm are used to determine the strength of optical emission lines affecting these bands at z6.5-6.9 in order to i) investigate possible physical differences between Lyα emitting and non-emitting sources; ii) constrain the escape fraction of ionizing photons; iii) provide an estimate of the specific star-formation rate at high redshifts. We find evidence of strong [OIII]+Hβ emission in the average (stacked) SEDs of galaxies both with and without Lyα emission. The blue IRAC [3.6]-[4.5] color of the stack with detected Lyα line can be converted into a rest-frame equivalent width EW([OIII]+Hβ)=1500+530-440 assuming a flat intrinsic stellar continuum. This strong optical line emission enables a first estimate of fesc20% on the escape fraction of ionizing photons from Lyα detected objects. The objects with no Lyα line show less extreme EW([OIII]+Hβ)=520+170-150 suggesting different physical conditions of the HII regions with respect to Lyα-emitting ones, or a larger fesc. The latter case is consistent with a combined evolution of fesc and the neutral hydrogen fraction as an explanation of the lack of bright Lyα emission at z>6. A lower limit on the specific star formation rate, SSFR>9.1Gyr-1 for Mstar=2 × 109 M galaxies at these redshifts can be derived from the spectroscopically confirmed sample.