The GREATS Hβ+[OIII] Luminosity Function and Galaxy Properties at z8: Walking the Way of JWST

Abstract

The James Webb Space Telescope will allow to spectroscopically study an unprecedented number of galaxies deep into the reionization era, notably by detecting [OIII] and Hβ nebular emission lines. To efficiently prepare such observations, we photometrically select a large sample of galaxies at z8 and study their rest-frame optical emission lines. Combining data from the GOODS Re-ionization Era wide-Area Treasury from Spitzer (GREATS) survey and from HST, we perform spectral energy distribution (SED) fitting, using synthetic SEDs from a large grid of photoionization models. The deep Spitzer/IRAC data combined with our models exploring a large parameter space enables to constrain the [OIII]+Hβ fluxes and equivalent widths for our sample, as well as the average physical properties of z8 galaxies, such as the ionizing photon production efficiency with (ion/erg-11mmHz)≥25.77. We find a relatively tight correlation between the [OIII]+Hβ and UV luminosity, which we use to derive for the first time the [OIII]+Hβ luminosity function (LF) at z8. The z8 [OIII]+Hβ LF is higher at all luminosities compared to lower redshift, as opposed to the UV LF, due to an increase of the [OIII]+Hβ luminosity at a given UV luminosity from z3 to z8. Finally, using the [OIII]+Hβ LF, we make predictions for JWST/NIRSpec number counts of z8 galaxies. We find that the current wide-area extragalactic legacy fields are too shallow to use JWST at maximal efficiency for z8 spectroscopy even at 1hr depth and JWST pre-imaging to 30 mag will be required.