Exploring Spatially-Resolved Metallicities, Dynamics and Outflows in Low-Mass Galaxies at z 7.6

Abstract

A majority of JWST/NIRSpec/IFU studies at high redshifts to date have focused on UV-bright or massive objects, while our understanding of low-mass galaxies at early cosmic times remains limited. In this work, we present NIRSpec/IFS high-resolution observations of two low-mass (M* < 109 \ M), low-metallicity ([12 + (O/H)] < 8) galaxies at z 7.66, one of which we identify as hosting a Type-II AGN. We measure flat strong-line metallicity gradients, suggestive of ISM redistribution by outflows or past merging, but also identify tension with the direct-Te metallicity gradient in one galaxy. We measure vrot/σ < 1 in both galaxies, consistent with observations of lower rotational support at early cosmic times. We identify broad kinematical components decoupled from galactic rotation with velocities of 250 - 500 \ km \ s-1 and argue these components trace outflows, for which we infer outflow rates of 8 - 14 \ M \ yr-1 with vout/vesc 1. We compare our findings to results from the new large-volume AESOPICA simulations, which fully incorporate different models of black hole growth and AGN feedback. We find that our observational results of vout/vesc are consistent with the simulated dwarf AGN population, hinting AGN-driven feedback may contribute to quenching both in our systems and in a wider population of low-mass galaxies in the early Universe. This novel study illustrates the necessity of deep IFU observations to decompose the complex kinematics and morphology of high-z galaxies, trace outflows, and constrain the effect of feedback in the early Universe.