An Investigation into the Low-Mass Fundamental Metallicity Relation in the Local and High-z Universe

Abstract

Recent JWST/NIRSpec observations have revealed high-z star-forming galaxies depart from the Fundamental Metallicity Relation (FMR), yet the z = 0 FMR has not been well-characterized in the low-mass regime ( log(M/M) 9) for an appropriate comparison of low- and high-z systems. We attempt to rectify this limitation through a meta-analysis, providing a local, observational comparison for future high-z FMR studies. We analyzed common FMR fitting methods for 700 [OIII]λ 4363 emitters with log(M/M) 9 at z 0. We find no evidence of the FMR below log(M/M) 9 through any method, suggesting that slowly-evolving, quasi-steady state gas reservoirs are not yet established. We simultaneously find a weak positive correlation between metallicity and star formation, and that these systems are gas-rich with substantial diversity in effective yields (y eff) spanning 3~dex. We demonstrate increasing y eff correlates with decreasing FMR offsets, which in the context of the analytical and non-equilibrium gas models of Dalcanton et al. (2007), indicates a scenario where star formation bursts rapidly return and eject metals from the ISM before subsequent gas-balancing. Pristine infall diluting the ISM metal-content cannot lead to the y eff diversity we measure, and thus is not the primary process behind FMR deviations. Our results suggest low- M systems, regardless of redshift, depart from a steady-state gas reservoir shaping the canonical FMR, in which metallicity variations are primarily driven by star formation and enriched outflows. With this characterization, we demonstrate z 3 [OIII]λ 4363 systems are indeed more metal-poor than z 0 counterparts ( 12+log(O/H) = 0.3~dex) at fixed M.

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