Date: 9/22/2024
Harvard ADS: Extreme-value modelling of the brightest galaxies at z ≳ 9
Paper abstract: Data from the JWST have revealed an intriguing population of bright galaxies at high redshifts. In this work, we use extreme-value statistics to calculate the distribution [in ultraviolet (UV) magnitude] of the brightest galaxies in the redshift range 9 <~ z <~ 16. We combine the generalized extreme-value approach with modelling of the galaxy luminosity function. We obtain predictions of the brightest galaxies for a suite of luminosity functions, including the Schechter and double power-law functions, as well as a model parametrized by the stellar formation efficiency f_*. We find that the JWST data are broadly consistent with f_* of 5\!\!-\!\!10{{\ \rm per\, cent}}, and that the brightest galaxy at z~ 16 will have M_{\rm UV}~ -23.5^{0.8}_{0.4}. If f_* is dependent on halo mass, we predict M_{\rm UV}~ -22.5^{0.5}_{1.5} for such an object. We show that extreme-value statistics not only predict the magnitude of the brightest galaxies at high redshifts, but may also be able to distinguish between models of star formation in high-redshift galaxies.
