A Glimpse of the Low-Mass End of the Direct Mass-Metallicity Relation at z6-8

Abstract

The competition between metal synthesis and feedback from massive stars establishes the mass-metallicity relation (MZR) at low-redshifts. Examining this relation at higher redshifts, particularly at the low-mass end 108\, M, is essential for understanding chemical enrichment and stellar feedback. In this study, we utilize the deep (30\,hrs) JWST/NIRSpec G395M GLIMPSE-D survey of the lensed field Abell S1063, to explore the low-mass end of the MZR at high redshift (z6-8). We identify eight [OIII]λ4364 emitters, enabling the most reliable "direct" metallicity measurements in galaxies down to stellar masses of 106-8\, M. By combining our sample and galaxies with [OIII]λ4364 detections from the literature, we calculate direct metallicities for 21 galaxies. We compare our direct metallicities to those derived from strong-line diagnostics, and find them to be consistent with previous calibrations. We fit the MZR at 106.7-9\,M with 0.3-0.5 dex lower metallicity than local galaxies at similar stellar mass. We find the slope to be 0.250.10, comparable to the local MZR; and the MZR exhibits a scatter of 0.2\,dex, which is larger than the local MZR, The lower metallicities may reflect denser, more gas-rich early environments, with continuous inflow of metal-poor gas diluting the ISM metallicity. In addition, we show that in extremely high electron densities (ne 105\, cm-3), metallicities can be significantly underestimated (0.5 dex), if lower ne are assumed for galaxies with high ne. In a nutshell, these observations provide the first glimpse of the low-mass MZR at z6-8 using direct metallicity measurements. More deep spectroscopic observations in lensed fields will be critical to robustly characterize the MZR and chemical evolution in the early universe.