The First Empirical Calibration of the MIR Abundance Diagnostic Ne$_{23}$ with JWST

TL;DR

This paper presents the first empirical calibration of the Ne$_{23}$ MIR abundance diagnostic using JWST data, enabling more accurate metallicity measurements in dust-obscured and metal-rich environments.

Contribution

It introduces a new empirical calibration of Ne$_{23}$ as a metallicity indicator based on JWST observations, reducing systematic uncertainties.

Findings

Ne$_{23}$ correlates strongly with O/H over 1.5 dex.

Calibration achieves 0.06 dex scatter in O/H at fixed Ne$_{23}$.

Method allows metallicity estimation up to z≈0.8 with JWST/MIRI.

Abstract

Large surveys of galaxies in the local and high-redshift Universe have, traditionally, relied on the intensity of rest-optical emission lines from metal ions in the Interstellar Medium (ISM) to indirectly estimate the O/H abundance in the gas. However, these optical strong line diagnostics are also sensitive to the electron gas temperature ($T_e$), resulting in large systematic uncertainties that inherently limit their utility as metallicity tracers, especially in dust-obscured and metal-rich environments. To this end, we provide the first empirical calibration of Ne$_{23}$, a novel abundance diagnostic using the mid-infrared (MIR) $T_e$-insensitive [Ne II]$\lambda$12.81$\mu$m and [Ne III]$\lambda$15.56$\mu$m fine-structure lines. We present new JWST/MIRI MRS observations of ten H II regions with optical measurements of $T_e$ and O/H from the CHAOS project, and we analyze MIRI observations of eight low-metallicity galaxies with similarly high-fidelity direct O/H. We measure Ne$_{23}$ from 1D MIR spectra extracted from apertures matched to the ground-based spectroscopy used to obtain O/H, a method that is unfeasible from MIR spectra acquired on prior space-based observatories. From these nebulae, Ne$_{23}$ is strongly correlated with O/H over 1.5 dex in 12+log(O/H). We calibrate the O/H-Ne$_{23}$ relation from the empirical data, finding a scatter of just 0.06 dex in O/H at fixed Ne$_{23}$. The O/H-Ne$_{23}$ relation presented here provides a means to reliably estimate 12+log(O/H) from JWST/MIRI MRS observations of ionized nebulae out to z$\approx$0.8, enabling new chemical abundance surveys of highly-attenuated regions and in the metal-rich ISM.