The Neon Gap: Probing Ionization with Dwarf Galaxies at z~1

TL;DR

This study measures [NeIII] emission in z~1 low-mass galaxies to understand their ionization conditions and evolution, revealing that their properties are similar to local galaxies and suggesting early stabilization of ionization and metallicity characteristics.

Contribution

First measurement of [NeIII] emission in z~1 dwarf galaxies, providing insights into their ionization and metallicity evolution compared to local and high-redshift galaxies.

Findings

z~1 dwarf galaxies share Ne3O2-M* relation with local galaxies

Higher O32 at given Ne3O2 indicates less evolution in ionization parameters

Some z>7 galaxies have similar properties to z~1 dwarfs

Abstract

We present measurements of [NeIII]{\lambda}3869 emission in z~1 low-mass galaxies taken from the Keck/DEIMOS spectroscopic surveys HALO7D and DEEPWinds. We identify 167 individual galaxies with significant [NeIII] emission lines, including 112 "dwarf" galaxies with log(M_{\star}/M_{\odot}) < 9.5, with 0.3 < z < 1.4. We also measure [NeIII] emission from composite spectra derived from all [OII]{\lambda}{\lambda}3727,3729 line emitters in this range. This provides a unique sample of [NeIII]-emitters in the gap between well-studied emitters at z = 0 and 2 < z < 3. To study evolution in ionization conditions in the ISM over this time, we analyze the log([NeIII]{\lambda}3869/[OII]{\lambda}{\lambda}3727,3729) ratio (Ne3O2) as a function of the stellar mass and of the log([OIII]{\lambda}{\lambda}4959,5007/[OII]{\lambda}{\lambda}3727,3729) ratio (O32). We find that the typical star-forming dwarf galaxy at this redshift, as measured from the composite spectra, shares the Ne3O2-M_{\star} relation with local galaxies, but have higher O32 at given Ne3O2. This finding implies that the ionization and metallicity characteristics of the z~1 dwarf population do not evolve substantially from z~1 to z=0, suggesting that the known evolution in those parameter from z~2 has largely taken place by z~1. Individual [NeIII]-detected galaxies have emission characteristics situated between local and z~2 galaxies, with elevated Ne3O2 and O32 emission potentially explained by variations in stellar and nebular metallicity. We also compare our dwarf sample to similarly low-mass z > 7 galaxies identified in JWST Early Release Observations, finding four HALO7D dwarfs with similar size, metallicity, and star formation properties.