Feedback-Free Star Formation in Clusters within a Galaxy Simulated at High Resolution in Cosmic Dawn

Abstract

We perform a cosmological zoom-in simulation of a massive galaxy (Ms1010 M at z10) using the GIZMO code. By employing ≤ 3 pc resolution and a 3.4 Myr supernova feedback delay, we capture the feedback-free starbursts (FFB) in clusters. The simulation reproduces FFB model predictions and super-bright galaxies observed by JWST. At z10, cold streams feed a compact galaxy (R e1 kpc), with stellar and surface densities (>105 cm-3, >105 M pc-2) exceeding FFB thresholds. The global star-formation efficiency (SFE) is s0.2--0.3, associated with a fluctuating star-formation history. We identified over 105 star clusters (M>104.5 M) with a nearly scale-free mass distribution ( dN/ d M M-1.06). Approximately 90\% of star formation occurs in clusters, which at a given time constitute 30--40\% of the total stellar mass. The star formation in most of the clusters of masses <107 M, occurs in bursts of <3 Myr and a local SFE 0.5 0.2. Cluster metallicities (-2.01< (Z/Z)<-0.45) indicate rapid baryon recycling. Feedback-driven outflows exhibit typical temperature of 107 K and typical velocities of 2000 km\ s-1. In the highly dynamic central 1 kpc, clusters undergo rapid orbital decay and merge to assemble the oblate nuclear stellar cluster. Cluster shapes range from oblate to prolate, with a triaxial median. These clusters are consistent with JWST observations, and a fraction of them may survive to yield the globular clusters (GCs) at low redshifts.