Litcius/Paper detail

Astraeus IV: quantifying the star formation histories of galaxies in the Epoch of Reionization

Laurent Legrand, Anne Hutter, Pratika Dayal, Graziano Ucci, Stefan Gottlöber, Gustavo Yepes

2021Monthly Notices of the Royal Astronomical Society24 citationsDOIOpen Access PDF

Abstract

ABSTRACT We use the astraeus framework, which couples an N-body simulation with a semi-analytic model for galaxy formation and a semi-numerical model for reionization, to quantify the star formation histories (SFHs) of galaxies in the first billion years. Exploring four models of radiative feedback, we fit the SFH of each galaxy at $z$ > 5 as log(SFR($z$)) = −α(1 + $z$) + β; star formation is deemed stochastic if it deviates from this fit by more than $\Delta _\mathrm{SFR}=0.6\,$dex. Our key findings are as follows: (i) The fraction of stellar mass formed and time spent in the stochastic phase decrease with increasing stellar mass and redshift $z$. While galaxies with stellar masses of $M_\star \sim 10^7\rm M_\odot$ at $z$ ∼ 5 (10) form $\sim 70{{\ \rm per\ cent}}~(20{{\ \rm per\ cent}})$ of their stellar mass in the stochastic phase, this reduces to $\lt 10{{\ \rm per\ cent}}$ at all redshifts for galaxies with $M_\star \gt 10^{10}\rm M_\odot$; (ii) the fractional mass assembled and lifetime spent in the stochastic phase do not significantly change with the radiative feedback model used; and (iii) at all redshifts, α increases (decreases for the strongest radiative feedback model) with stellar mass for galaxies with $M_\star \lesssim 10^{8.5}\rm M_\odot$ and converges to ∼0.18 for more massive galaxies; β always increases with stellar mass. Our proposed fits can reliably recover the stellar masses and mass-to-light ratios for galaxies with $M_\star \sim 10^{8}\!-\!10^{10.5}\,\rm M_\odot$ and ${\it M}_{\rm UV}\sim -17~{\rm to}~-23$ at $z$ ∼ 5–9. This physical model can therefore be used to derive the SFHs for galaxies observed by a number of forthcoming instruments.

Topics & Concepts

PhysicsAstrophysicsReionizationGalaxyStellar massRedshiftStar formationStar (game theory)Radiative transferGalaxy formation and evolutionQuantum mechanicsGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical ResearchStellar, planetary, and galactic studies