Legacy of star formation in the pre-reionization universe

Abstract

We utilize GIZMO, coupled with newly developed sub-grid models for Population~III (Pop~III) and Population~II (Pop~II), to study the legacy of star formation in the pre-reionization Universe. We find that the Pop~II star formation rate density (SFRD), produced in our simulation ( 10-2\ yr-1\, Mpc-3 at z 10), matches the total SFRD inferred from observations within a factor of <2 at 7 z 10. The Pop~III SFRD, however, reaches a plateau at 10-3\ yr-1\, Mpc-3 by z≈10, remaining largely unaffected by the presence of Pop~II feedback. At z=7.5, 20\% of Pop~III star formation occurs in isolated haloes which have never experienced any Pop~II star formation (i.e. primordial haloes). We predict that Pop~III-only galaxies exist at magnitudes M UV -11, beyond the limits for direct detection with the James Webb Space Telescope (JWST). We assess that our stellar mass function (SMF) and UV luminosity function (UVLF) agree well with the observed low mass/faint-end behavior at z=8 and 10. However, beyond the current limiting magnitudes, we find that both our SMF and UVLF demonstrate a deviation/turnover from the expected power-law slope (M UV,turn= -13.41.1 at z=10). This could impact observational estimates of the true SFRD by a factor of 2 (10) when integrating to M UV = -12 (-8) at z 10, depending on integration limits. Our turnover correlates well with the transition from dark matter haloes dominated by molecular cooling to those dominated by atomic cooling, for a mass M halo≈ 108 at z 10.