MAGAZ3NE: Spatially Resolved Ages and Chemical Abundances of Ultra-Massive Quiescent Galaxies at z 3.5 using JWST/NIRSpec IFU

Abstract

We present spatially-resolved measurements of stellar age, [Fe/H], and [α/Fe] in three ultra-massive (log(M/M)>11), compact (Re 2 kpc) quiescent galaxies at z3.5 using JWST/NIRSpec IFU spectroscopy. These observations provide the first spatially-resolved constraints on α-enhancement at this epoch, enabling a direct test of quenching mechanisms before late-time assembly processes such as mergers can erase chemical signatures. The central regions of all three galaxies show both uniformly young ages (≈0.6-0.7 Gyr) and elevated [α/Fe] (≈0.2-0.5), indicating rapid, enhanced star formation shortly before recent quenching. Beyond the cores, two galaxies display positive age gradients and negative [α/Fe] gradients, consistent with rapid merger-driven quenching, while the third shows a flat age profile indicative of uniform quenching. The [Fe/H] gradients are also consistent with these trends, though we note that the metallicities reported by codes using α-enhanced models differ significantly (≈0.2-0.4 dex) from those reported using solar-scaled templates. These data demonstrate that quenching pathways are diverse by z3.5, with rapid, merger-driven quenching already operating in a subset of massive quiescent galaxies in the first two billion years of cosmic time. Furthermore, these results establish that explicit treatment of α-enhancement is essential for interpreting the star-formation histories of the earliest quenched systems.