The LBT Y p Project II: MODS Spectra, Physical Conditions, and Oxygen Abundances in Local Metal-Poor Nebulae

Abstract

Empirically measuring the primordial He mass fraction, Y p, requires a significant number of low-metallicity nebulae with direct constraints on He/H and O/H abundances. This technique requires high-fidelity measurements of the gas-phase physical conditions, namely the electron temperature (Te) and density (ne). To this end, we present deep rest-optical spectroscopy for a sample of 62 low-metallicity ( 20% solar O/H) galaxies acquired using the Multi-Object Double Spectrographs (MODS) on the Large Binocular Telescope (LBT) as part of the LBT Y p Project. We discuss new fitting methods that recover the intensity of up to 61 H and He recombination lines, of which, up to 26 will be used to determine gas-phase He abundances, and we examine the emission line properties of the LBT Y p Project sample. We assess different scaling relations in the low-metallicity interstellar medium (ISM), finding that ne[Ar IV] measured in 31 targets is systematically larger than ne[S II] or ne[O II]. The larger densities are insufficient to significantly bias Te[O III] or the O/H abundance. Te[S III] and Te[O III] are strongly correlated over a range of 104 K with very low scatter, and we calibrate new Te[S III]-Te[O III] scaling relations for use in other low-metallicity environments. We examine different Te measured in the low-ionization gas, finding significant scatter compared to Te[O III]. The precision direct O/H derived in this analysis (median uncertainty 4%) are consistent with prior literature measurements, albeit with relatively large scatter. These data provide a key component necessary to empirically measure Y p and the abundance patterns of other elements in the ISM.