Little Red Dots on FIRE: Exploring the formation and observational signatures of ultra-compact early galaxies

Abstract

Little Red Dots (LRDs) are compact sources with broad Balmer lines, Balmer breaks, anomalous UV emission, rising red continuum, and uncertain origin. We use FIRE cosmological simulations, 3D dust radiative transfer, and synthetic emission-line data cubes to test whether ultra-compact early galaxies can reproduce LRD-like observables without invoking AGN. In progenitors of present-day group halos (M halo > 1013.5 M), we identify transient phases at z ≈ 4-8 lasting 150-400 Myr in which strong dissipative inflows build massive (M 108.5-1010.5 M), UV-bright (-23 M UV -20), ultra-compact (R eff < 300 pc) stellar cores with extreme circular velocity (V circ > 500 km s-1) and consistent with several LRD properties: strong Balmer breaks (Fν(4200 Å)/Fν(3500 Å) 2); blue UV beta slopes (β UV ≈ -1.25); dust masses; ALMA non-detections; and Balmer-line widths up to 1500 km s-1 broadened by galaxy-scale dynamics. However, stellar emission and host-galaxy kinematics alone do not reproduce the red rest-optical continuum, more extreme Balmer breaks ( 2.5) and line widths ( 2000 km s-1), or the broad-Balmer/narrow-forbidden-line signature of broad-line AGN. The same ultra-compact conditions efficiently fuel central BHs, suggesting a hybrid stellar+AGN scenario in which compact stars explain the UV continuum, Balmer break, and intermediate line widths while AGN supply the red optical continuum and more extreme line properties. With halo masses M halo 1011-12.5 M and comoving abundance 2 × 10-5 cMpc-3 (for 20\% duty-cycle at z ≈ 4-8), ultra-compact galaxies can contribute to the massive, bright LRD population.