GA-NIFS: The interplay between feedback and star formation at 3 < z < 9 probed by JWST/NIRSpec IFU

Abstract

The study of starburst- and AGN-driven feedback is fundamental for understanding the processes that shape galaxy growth, quench star formation, and drive the co-evolution of galaxies and their central black holes. We present a spatially resolved study of six galaxies at 3 < z < 9, including starburst- and AGN-dominated systems, observed with JWST/NIRSpec IFU in low- (R 100) and high-resolution (R 2700) mode. Previous analysis of R 2700 data revealed ionized outflows in all these galaxies. We explore possible links between outflows and stellar population properties to assess the mechanisms driving galaxy evolution at early epochs. Combining the spatially resolved stellar population analysis with the outflow properties, we find that the most massive galaxies (M > 5 × 1010 M) with strong AGN-driven ionized outflows show evidence of past quenching episodes occurring within the last 100--300 Myr, mainly in the nuclear regions (r < 3 kpc). In contrast, higher-redshift (z > 5) and less massive (M < 1010 M) starburst galaxies with powerful (starburst-driven) outflows appear to have experienced continuous growth, with no clear sign of quenching. Massive galaxies with weaker outflows do not show evidence of quenching in their history. One massive AGN host (GS20936) shows evidence for a recent (10--30 Myr) rejuvenation phase, likely fueled by a recent major merger. These results suggest that (AGN-driven) outflows can already play a key role in shaping the SFHs of massive galaxies at early cosmic epochs.