Spatially resolved gas-phase metallicity at z~2-3 with JWST/NIRISS

Abstract

Spatially resolved gas-phase metallicity maps are a crucial element in understanding the chemical evolution of galaxies. We present spatially resolved metallicity maps obtained from NIRISS/WFSS observations. This is the first such work presenting multiple individual galaxies. We investigate the source of ionisation, metallicity and its relation to star-formation in a spatially-resolved sense for a sample of eight galaxies -- four from JWST-PASSAGE and four from GLASS-JWST ERS. All but one galaxy are in the redshift range 1.9 ≤ z ≤ 2, the outlier being at z = 3.1. Our sample covers a range of 8.0 < < 9.5 in stellar mass, 0.2 < (SFR/) < 1.1 in star-formation rate (SFR) and 7.8 < < 9.0 in global metallicity. As a solution to the challenge of SF-AGN demarcation in absence of resolved , we present a new SF-demarcation line in the OHNO parameter space based on MAPPINGS v5.1 publicly available region model grids. We present the mass-metallicity gradient relation for our sample, which showed no clear trend with stellar mass, perhaps hinting at the fact that the high-z galaxies have not yet started their accretion dominated phase. By interpreting the correlation between spatially resolved metallicity and SFR maps as a proxy for effective timescales of metal-transport in galaxies, we find a weak trend such that this timescale increases with stellar mass, implying a more effective feedback in lower mass galaxies.