Rapidly growing primordial black holes as seeds of the massive high-redshift JWST Galaxies

A group of massive galaxies at redshifts of $z\geq 6.5$ have been recently detected by James Webb Space Telescope (JWST), which were unexpected to form at such early times within the standard Big Bang cosmology. In this work we propose that the formation of some $\sim 50~M_\odot$ primordial black holes (PBHs) formed in the early Universe via super-Eddington accretion within the dark matter halo can explain these observations. These PBHs may act as seeds for early galaxies formation with masses of $\sim 10^{9}-10^{10}~M_\odot$ at $z\sim 8$, hence accounting for the JWST observations. We use a hierarchical Bayesian inference framework to constrain the PBH mass distribution models, and find that the Lognormal model with the $M_{\rm c}\sim 35M_\odot$ is strongly preferred over other hypotheses. These rapidly growing BHs are expected to have strong radiation and may appear as the high-redshift compact objects, similar to those recently discovered by JWST.