Stochastic star formation and the abundance of z>10 UV-bright galaxies

We use a well-motivated galaxy formation framework to predict stellar masses, star formation rates (SFR), and ultraviolet (UV) luminosities of galaxy populations at redshifts z 5-16, taking into account stochasticity of SFR in a controlled manner. We demonstrate that the model can match observational estimates of UV luminosity functions (LFs) at 51 indicating that SFR stochasticity cannot be higher. We discuss several testable consequences of the increased SFR stochasticity at z>10. The increase of SFR stochasticity with increasing z, for example, prevents steepening of UV LF and even results in some flattening of UV LF at z 13. The median stellar ages of model galaxies at z 11-16 are predicted to decrease from 20-30 Myr for M ₔₕ -21 galaxies to 5-10 Myr for brighter ones. Likewise, the scatter in median stellar age is predicted to decrease with increasing luminosity. The scatter in the ratio of star formation rates averaged over 10 and 100 Myr should increase with redshift. Fluctuations of ionizing flux should increase at z>10 resulting in the increasing scatter in the line fluxes and their ratios for the lines sensitive to ionization parameter.