Stress testing Λ CDM with high-redshift galaxy candidates.

Early data from the James Webb Space Telescope (JWST) have revealed a bevy of high-redshift galaxy candidates with unexpectedly high stellar masses. An immediate concern is the consistency of these candidates with galaxy formation in the standard Λ CDM cosmological model, wherein the stellar mass ( M ⋆ ) of a galaxy is limited by the available baryonic reservoir of its host dark matter halo. The mass function of dark matter haloes therefore imposes an absolute upper limit on the number density n (> M ⋆ ,  z ) and stellar mass density ρ ⋆ (> M ⋆ ,  z ) of galaxies more massive than M ⋆ at any epoch z . Here I show that the most massive galaxy candidates in JWST observations at z  ≈ 7-10 lie at the very edge of these limits, indicating an important unresolved issue with the properties of galaxies derived from the observations, how galaxies form at early times in Λ CDM or within this standard cosmology itself.