Super-early JWST galaxies, outflows, and Lyα visibility in the Epoch of Reionization

The overabundance of super-early (redshift z > 10) luminous ( M UV 10 and the star formation rate (SFR) density evolution. The model also predicts, in agreement with data, that the cosmic specific SFR (sSFR) grows as sSFR ∝ (1 + z ) 3/2 . At z ≃ 10, the cosmic sSFR crosses the critical value sSFR ⋆ = 25 Gyr −1 , and approximately 45% of the galaxies become super-Eddington, driving outflows reaching velocities of ≈830( ϵ ⋆ / f M ) 1/2 km s −1 , where ϵ ⋆ and f M are the star formation efficiency and fraction of the halo gas expelled in the outflow, respectively. This prediction is consistent with the outflow velocities measured in 12 super-Eddington galaxies of the JWST/JADES sample. Such outflows clear the dust, thus boosting the galaxy luminosity. They also dramatically enhance the visibility of the Ly α line from z > 10 galaxies by introducing a velocity offset. The observed Ly α properties in GN-z11 ( z = 10.6) are simultaneously recovered by the outflow model if log N HI ≃ 20.1, implying that the outflow is largely ionized. We make analogous predictions for the Ly α visibility of other super-early galaxies, and we compare the model with Ly α surveys at z > 7, finding that essentially all super-Eddington (sub-Eddington) galaxies are (not) detected in Ly α . Finally, the sSFR positively correlates with the LyC escape fraction, as outflows carve ionized transparent channels through which LyC photons leak.