The ALPINE-CRISTAL-JWST Survey: Gas-phase abundance gradients of main sequence star-forming galaxies and their kinematics at 4 < z < 6

Abstract

We present gas-phase radial metallicity profiles for 20 main-sequence galaxies at 4<z<6, primarily based on JWST NIRSpec IFU observations obtained as part of the JWST-ALPINE-CRISTAL programme. Our study aims to connect the metallicity gradients of these galaxies with their kinematic properties from [CII]158μm ALMA observations. We mapped the radial profiles of oxygen abundance using the strong-line method leveraging the rich set of rest-frame optical emission lines. Linear fits to the annular-binned radial profiles show that, on average, the metallicity gradients are slightly positive with a median of +0.039 0.010 dexkpc-1. There are no substantial systematic offsets in gradients when using different line diagnostics. However, only three galaxies show a gradient >0.05 dexkpc-1 at 1σ, and none have a significant negative gradient. We investigated the correlation between the metallicity gradients and the intrinsic gas velocity dispersion σ0 as well as the V rot/σ0 ratio of the disks. Combining our sample with mass-matched literature samples at 3<z<7, we found a negative shallow correlation between V rot/σ0 and the metallicity gradients, but no strong relationships with σ0. As V rot/σ0 increases towards later cosmic times, the observed negative trend with V rot/σ0 is consistent with the overall cosmic evolution of metallicity gradients from high to low redshifts. This suggests that disk maturity plays a crucial role in shaping the radial metallicity gradients. [Abridged abstract]