Accelerated evolution of galaxy host halo masses during Cosmic Dawn from deep JWST clustering

Abstract

We present the deepest clustering analysis of early galaxies to date, analyzing Ng 6500 photometrically-selected Lyman Break Galaxies from JWST's Advanced Deep Extragalactic Survey (JADES) to reveal how galaxies and dark matter evolved during cosmic dawn (5 ≤ z < 11). Using halo occupation distribution (HOD) modeling of the two-point angular correlation function, we trace the galaxy-halo relationships across the first billion years of cosmic history. Our analysis reveals that galaxies at z = 10.6 reside in dark matter halos over an order of magnitude less massive (Mh 1010.12 M) than their counterparts at z = 5.5 (Mh 1011.45 M), while exhibiting correspondingly higher effective bias values (bgeff = 8.13+0.04-0.02 compared to 5.64+0.10-0.13). Correspondingly, the satellite galaxy fraction hints at a declining trend with decreasing redshift, reaching <1\% by z 5-6. However, the significant systematic and random uncertainties in the data-model comparison prevent us from drawing robust conclusions on the evolution - if any - of the satellite fraction during the epoch of reionization. These results provide the first view of the coevolution between galaxies and dark matter evolved at redshift 10, offering additional and independent constraints on early galaxy formation models tuned to reproducing luminosity function evolution.