The AURORA Survey: The Mass -- Metallicity and Fundamental Metallicity Relations at z 2.3 Based Purely on Direct Te Metallicities
Abstract
We present new constraints on the Mass -- Metallicity (MZR) and Fundamental Metallicity Relations (FMR) using a sample of 34 galaxies at 1.38≤~z≤~3.5 (median z=2.28). These galaxies have direct Te measurements from [Oiii]4363~and/or [Oii]7320,7331~auroral emission lines detected with JWST/NIRSpec as part of the AURORA survey. The detection of both oxygen auroral lines allows for dual-zone direct Te measurements and expands the dynamic range in 12+(O/H) (7.68 to 8.65 dex), stellar mass (108 to 1010.4 M), and star-formation rate (1 to 100 M yr-1) compared to previous direct Te studies of the high-redshift MZR and FMR. We characterize the z2 MZR and find a slope of 0.270.04 and normalization of 12+(O/H) = 8.440.04 at 1010 M with an intrinsic scatter of 0.10 dex, consistent with past strong-line MZR measurements. Comparisons with z2 predictions from six simulations reveal that none reproduce our observed MZR normalization evolution between z0 and z2. This discrepancy suggests current models do not fully capture the chemical enrichment and feedback processes occurring at cosmic noon. However, all 34 galaxies are on or above the star-forming main sequence such that our sample may be biased towards lower 12+(O/H) if the FMR persists at z2. Correcting for this selection effect would increase O/H by ≈0.1 dex at 109.3 M (the median mass of our sample) bringing our MZR into better agreement with that of TNG. Lastly, we find our z2.3 sample is consistent with the z0 FMR within 0.1 dex in O/H, indicating that the smooth secular mechanisms regulating chemical enrichment, star formation, stellar mass, and outflows were in place at cosmic noon.
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