Alpha Element Abundances in a Large Sample of Galactic Planetary Nebulae

TL;DR

This study analyzes alpha element abundances in 38 Galactic planetary nebulae, revealing insights into nucleosynthesis and chemical evolution by comparing their element ratios with other galactic objects.

Contribution

It provides detailed spectroscopic measurements of alpha elements in a large sample of Galactic PNe and compares these with other galactic environments to understand stellar nucleosynthesis.

Findings

Ne/O ratios are higher in PNe than in H II regions and BCGs.

Sulfur abundances show significant scatter and are systematically lower.

PNe do not show significant alpha element differences within their classification types.

Abstract

We present emission line strengths, abundances, and element ratios (X/O for Ne, S, Cl, and Ar) for a sample of 38 Galactic disk planetary nebulae (PNe) consisting primarily of Peimbert classification Type I. Spectrophotometry for these PNe incorporates an extended optical/near-IR range of 3600-9600 angstroms including the [S III] lines at 9069 and 9532. We have utilized Emission Line Spectrum Analyzer, a five-level atom abundance routine, to determine T_e, N_e, ionization correction factors, and total element abundances. With a compilation of data from >120 Milky Way PNe, we present results from our most recent analysis of abundance patterns in Galactic disk PNe. We have examined the alpha elements against H II regions and blue compact galaxies (H2BCG) to discern signatures of depletion or enhancement in PNe progenitor stars, particularly the destruction or production of O and Ne. We present evidence that many PNe have higher Ne/O and lower Ar/Ne ratios compared to H2BCGs within the range of 8.5-9.0 for 12 + log(O/H). This suggests that Ne is being synthesized in the low- and intermediate-mass progenitors. Sulfur abundances in PNe continue to show great scatter and are systematically lower than those found in H2BCG at a given metallicity. Although we find that PNe do show some distinction in alpha elements when compared to H2BCG, within the Peimbert classification types studied, PNe do not show significant differences in alpha elements amongst themselves, at least to an extent that would distinguish in situ nucleosynthesis from the observed dispersion in abundance ratios.